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/*
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Copyright ( c ) 2008 - 2018 Jan W . Krieger ( < jan @ jkrieger . de > )
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This software is free software : you can redistribute it and / or modify
it under the terms of the GNU Lesser General Public License ( LGPL ) as published by
the Free Software Foundation , either version 2 of the License , or
( at your option ) any later version .
This program 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 ( LGPL ) for more details .
You should have received a copy of the GNU Lesser General Public License ( LGPL )
along with this program . If not , see < http : //www.gnu.org/licenses/>.
*/
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# include "jkqtmathtext/jkqtmathtext.h"
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# include <QFontMetricsF>
# include <QDebug>
# include <QFontDatabase>
# include <typeinfo>
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# include <QApplication>
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//#define JKQTP_QColor2String(color) QString(jkqtp_rgbtostring((color).red(), (color).green(), (color).blue(), (color).alpha()).c_str())
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QPainterPath makeHBracePath ( double x , double ybrace , double width , double bw , double cubicshrink = 0.5 , double cubiccontrolfac = 0.3 ) {
double xl1 = x - ( width ) * cubicshrink + bw * cubicshrink ;
double xr2 = x + ( width ) * cubicshrink - bw * cubicshrink ;
double xl2 = x - bw * cubicshrink ;
double xr1 = x + bw * cubicshrink ;
QPainterPath path ;
path . moveTo ( xl1 - bw * cubicshrink , ybrace - bw * cubicshrink ) ;
path . cubicTo ( xl1 - bw * cubicshrink , ybrace - bw * cubicshrink + bw * cubiccontrolfac , xl1 - bw * cubiccontrolfac , ybrace , xl1 , ybrace ) ;
path . lineTo ( xl2 , ybrace ) ;
path . cubicTo ( xl2 + bw * cubiccontrolfac , ybrace , ( xl2 + xr1 ) / 2.0 , ybrace + bw * cubicshrink - bw * cubiccontrolfac , ( xl2 + xr1 ) / 2.0 , ybrace + bw * cubicshrink ) ;
path . cubicTo ( ( xl2 + xr1 ) / 2.0 , ybrace + bw * cubicshrink - bw * cubiccontrolfac , xr1 - bw * cubiccontrolfac , ybrace , xr1 , ybrace ) ;
path . lineTo ( xr2 , ybrace ) ;
path . cubicTo ( xr2 + bw * cubiccontrolfac , ybrace , xr2 + bw * cubicshrink , ybrace - bw * cubicshrink + bw * cubiccontrolfac , xr2 + bw * cubicshrink , ybrace - bw * cubicshrink ) ;
return path ;
}
QPainterPath makeArrow ( double x , double y , double width , double arrowW , bool left = false , bool right = true ) {
double x1 = x ;
double x2 = x + width ;
double x3 = x2 - arrowW / 2.0 ;
double y3u = y - arrowW / 2.0 ;
double y3d = y + arrowW / 2.0 ;
double x3l = x + arrowW / 2.0 ;
QPainterPath path ;
path . moveTo ( x1 , y ) ;
path . lineTo ( x2 , y ) ;
if ( right ) {
path . moveTo ( x3 , y3u ) ;
path . lineTo ( x2 , y ) ;
path . lineTo ( x3 , y3d ) ;
}
if ( left ) {
path . moveTo ( x3l , y3u ) ;
path . lineTo ( x1 , y ) ;
path . lineTo ( x3l , y3d ) ;
}
return path ;
}
QPainterPath makeDArrow ( double x , double y , double width , double arrowW , bool left = false , bool right = true ) {
double x1 = x ;
double x2 = x + width ;
double dx = arrowW / 4.0 ;
double y1 = y - dx ;
double y2 = y + dx ;
double x3 = x2 - arrowW / 2.0 ;
double y3u = y - arrowW / 2.0 ;
double y3d = y + arrowW / 2.0 ;
double x3l = x + arrowW / 2.0 ;
QPainterPath path ;
path . moveTo ( x1 + dx , y1 ) ;
path . lineTo ( x2 - dx , y1 ) ;
path . moveTo ( x1 + dx , y2 ) ;
path . lineTo ( x2 - dx , y2 ) ;
if ( right ) {
path . moveTo ( x3 , y3u ) ;
path . lineTo ( x2 , y ) ;
path . lineTo ( x3 , y3d ) ;
}
if ( left ) {
path . moveTo ( x3l , y3u ) ;
path . lineTo ( x1 , y ) ;
path . lineTo ( x3l , y3d ) ;
}
return path ;
}
// --------------------------------------------------------------------------------------------------
// -- implementation of the MTnode's methods
// --------------------------------------------------------------------------------------------------
JKQTmathText : : MTenvironment : : MTenvironment ( ) {
color = QColor ( " black " ) ;
font = MTEroman ;
fontSize = 10 ;
bold = false ;
italic = false ;
smallCaps = false ;
underlined = false ;
overline = false ;
strike = false ;
insideMath = false ;
}
QFont JKQTmathText : : MTenvironment : : getFont ( JKQTmathText * parent ) const {
QFont f ;
switch ( font ) {
case MTEsans :
if ( insideMath ) f . setFamily ( parent - > get_fontMathSans ( ) ) ;
else f . setFamily ( parent - > get_fontSans ( ) ) ;
break ;
case MTEtypewriter : f . setFamily ( parent - > get_fontTypewriter ( ) ) ; break ;
case MTEscript : f . setFamily ( parent - > get_fontScript ( ) ) ; break ;
case MTEroman :
if ( insideMath ) f . setFamily ( parent - > get_fontMathRoman ( ) ) ;
else f . setFamily ( parent - > get_fontRoman ( ) ) ;
break ;
case MTEcaligraphic : f . setFamily ( parent - > get_fontCaligraphic ( ) ) ; break ;
case MTEblackboard : f . setFamily ( parent - > get_fontBlackboard ( ) ) ; break ;
} ;
f . setBold ( bold ) ;
f . setItalic ( italic ) ;
f . setUnderline ( underlined ) ;
f . setOverline ( overline ) ;
f . setStrikeOut ( strike ) ;
f . setCapitalization ( QFont : : MixedCase ) ;
if ( smallCaps ) f . setCapitalization ( QFont : : SmallCaps ) ;
f . setPointSizeF ( fontSize ) ;
f . setStyleStrategy ( QFont : : NoFontMerging ) ;
return f ;
}
QString JKQTmathText : : MTenvironment : : toHtmlStart ( MTenvironment defaultEv ) const {
QString s ;
s = s + " font-size: " + QLocale : : c ( ) . toString ( fontSize ) + " pt; " ;
if ( insideMath ) {
if ( defaultEv . italic ) {
if ( ! italic ) s = s + " font-style: italic; " ;
if ( italic ) s = s + " font-style: normal; " ;
} else {
if ( ! italic ) s = s + " font-style: italic; " ;
}
} else {
if ( ! defaultEv . italic & & italic ) s = s + " font-style: italic; " ;
}
if ( bold & & ! defaultEv . bold ) s = s + " font-weight: bold " ;
QStringList td ;
if ( underlined & & ! defaultEv . underlined ) td < < " underline " ;
if ( overline & & ! defaultEv . overline ) td < < " overline " ;
if ( strike & & ! defaultEv . strike ) td < < " line-through " ;
if ( td . size ( ) > 0 ) s = s + " text-decoration: " + td . join ( " , " ) ;
return " <span style= \" " + s + " \" > " ;
}
QString JKQTmathText : : MTenvironment : : toHtmlAfter ( JKQTmathText : : MTenvironment /*defaultEv*/ ) const {
return " </span> " ;
}
JKQTmathText : : MTnode : : MTnode ( JKQTmathText * parent ) {
this - > parent = parent ;
drawBoxes = false ;
}
void JKQTmathText : : MTnode : : getSize ( QPainter & painter , JKQTmathText : : MTenvironment currentEv , double & width , double & baselineHeight , double & overallHeight , double & strikeoutPos )
{
double w = width , b = baselineHeight , o = overallHeight , s = strikeoutPos ;
getSizeInternal ( painter , currentEv , w , b , o , s ) ;
if ( w < 1e5 ) width = w ;
if ( b < 1e5 ) baselineHeight = b ;
if ( o < 1e5 ) overallHeight = o ;
if ( s < 1e5 ) strikeoutPos = s ;
}
bool JKQTmathText : : MTnode : : toHtml ( QString & /*html*/ , JKQTmathText : : MTenvironment /*currentEv*/ , JKQTmathText : : MTenvironment /*defaultEv*/ ) {
return false ;
}
void JKQTmathText : : MTnode : : doDrawBoxes ( QPainter & painter , double x , double y , JKQTmathText : : MTenvironment currentEv ) {
if ( drawBoxes ) {
painter . save ( ) ;
double w , oh , bh , sp ;
getSize ( painter , currentEv , w , bh , oh , sp ) ;
QPen p = painter . pen ( ) ;
p . setColor ( " lightcoral " ) ;
p . setWidthF ( 0.5 ) ;
painter . setPen ( p ) ;
QRectF r ( x , y - bh , w , oh ) ;
painter . drawRect ( r ) ;
p . setColor ( " lightblue " ) ;
painter . setPen ( p ) ;
if ( w > 0 ) painter . drawLine ( QLineF ( x , y , x + w , y ) ) ;
p . setColor ( " green " ) ;
painter . setPen ( p ) ;
painter . drawEllipse ( x - 3.0 , y - 3.0 , 6.0 , 6.0 ) ;
p . setColor ( " lightgreen " ) ;
painter . setPen ( p ) ;
painter . drawLine ( x - 2.0 , y , x + 2.0 , y ) ;
painter . drawLine ( x , y - 2 , x , y + 2.0 ) ;
painter . restore ( ) ;
}
}
JKQTmathText : : MTtextNode : : MTtextNode ( JKQTmathText * parent , QString textIn , bool addWhitespace , bool stripInnerWhitepace ) :
JKQTmathText : : MTnode ( parent )
{
QString text = textIn ;
if ( stripInnerWhitepace ) {
text = " " ;
for ( int i = 0 ; i < textIn . size ( ) ; i + + ) {
if ( ! textIn [ i ] . isSpace ( ) ) text + = textIn [ i ] ;
}
}
this - > text = text ;
// strip all whitespace from left
while ( this - > text . size ( ) > 1 & & this - > text [ 0 ] . isSpace ( ) ) {
this - > text = this - > text . right ( this - > text . size ( ) - 1 ) ;
}
if ( addWhitespace /*&& (this->text.size()>0)*/ & & ( ! this - > text [ this - > text . size ( ) - 1 ] . isSpace ( ) ) ) this - > text = this - > text + " " ;
//qDebug()<<"MTtextNode( text="<<text<<" addWhitespace="<<addWhitespace<<") [=> this->text="<<this->text<<"]";
}
JKQTmathText : : MTtextNode : : ~ MTtextNode ( ) {
}
void JKQTmathText : : MTtextNode : : getSizeInternal ( QPainter & painter , JKQTmathText : : MTenvironment currentEv , double & width , double & baselineHeight , double & overallHeight , double & strikeoutPos ) {
QFont f = currentEv . getFont ( parent ) ;
if ( currentEv . insideMath & & ( text = = " ( " | | text = = " [ " | | text = = " | " | | text = = " ] " | | text = = " ) " | | text = = " < " | | text = = " > " | |
text = = QString ( QChar ( 0x2329 ) ) | | text = = QString ( QChar ( 0x232A ) ) | | text = = QString ( QChar ( 0x2308 ) ) | |
text = = QString ( QChar ( 0x2309 ) ) | | text = = QString ( QChar ( 0x230A ) ) | | text = = QString ( QChar ( 0x230B ) ) ) ) {
f . setItalic ( false ) ;
f . setFamily ( parent - > get_fontBraces ( ) ) ;
}
QString txt = textTransform ( text , currentEv , true ) ;
QFontMetricsF fm ( f , painter . device ( ) ) ;
QRectF br = fm . boundingRect ( txt ) ;
QRectF tbr = parent - > getTBR ( f , txt , painter . device ( ) ) ; //fm.tightBoundingRect(txt);
if ( txt = = " | " ) {
br = fm . boundingRect ( " X " ) ;
tbr = QRect ( 0 , 0 , fm . width ( " X " ) , fm . ascent ( ) ) ; //fm.boundingRect("X");
br . setWidth ( 0.7 * br . width ( ) ) ;
}
width = br . width ( ) ; //width(text);
if ( txt . size ( ) > 0 ) {
if ( txt [ 0 ] . isSpace ( ) /*&& br.width()<=0*/ ) width = width + fm . boundingRect ( " I " ) . width ( ) ;
if ( txt . size ( ) > 1 & & txt [ txt . size ( ) - 1 ] . isSpace ( ) /*&& (fm.boundingRect("a ").width()==fm.boundingRect("a").width())*/ ) width = width + fm . width ( " I " ) ;
}
//qDebug()<<"text: "<<text<<" "<<tbr.height()<<tbr.top()<<tbr.bottom();
overallHeight = tbr . height ( ) * 1.1 ; //fm.height();
baselineHeight = 1.1 * ( tbr . height ( ) - ( tbr . height ( ) + tbr . top ( ) ) ) ; //fm.ascent();
strikeoutPos = fm . strikeOutPos ( ) * 1.1 ;
}
double JKQTmathText : : MTtextNode : : draw ( QPainter & painter , double x , double y , JKQTmathText : : MTenvironment currentEv ) {
doDrawBoxes ( painter , x , y , currentEv ) ;
double width = 0 ;
double baselineHeight = 0 ;
double overallHeight = 0 ;
double sp = 0 ;
getSize ( painter , currentEv , width , baselineHeight , overallHeight , sp ) ;
QString txt = textTransform ( text , currentEv ) ;
bool hasDigits = false ;
bool onlyDigits = true ;
for ( int i = 0 ; i < txt . size ( ) ; i + + ) {
if ( txt [ i ] . isDigit ( ) ) {
hasDigits = true ;
}
if ( ! txt [ i ] . isDigit ( ) & & ! txt [ i ] . isSpace ( ) ) {
onlyDigits = false ;
}
}
QPen pold = painter . pen ( ) ;
QFont fold = painter . font ( ) ;
QFont f = currentEv . getFont ( parent ) ;
if ( currentEv . insideMath & & ( text = = " ( " | | text = = " [ " | | text = = " | " | | text = = " ] " | | text = = " ) " | | text = = " < " | | text = = " > " | |
text = = QString ( QChar ( 0x2329 ) ) | | text = = QString ( QChar ( 0x232A ) ) | | text = = QString ( QChar ( 0x2308 ) ) | |
text = = QString ( QChar ( 0x2309 ) ) | | text = = QString ( QChar ( 0x230A ) ) | | text = = QString ( QChar ( 0x230B ) ) ) ) {
f . setItalic ( false ) ;
f . setFamily ( parent - > get_fontBraces ( ) ) ;
}
if ( onlyDigits & & currentEv . insideMath ) {
f . setItalic ( false ) ;
}
painter . setFont ( f ) ;
QPen p = painter . pen ( ) ;
p . setColor ( currentEv . color ) ;
painter . setPen ( p ) ;
double dx = 0 ;
QFontMetricsF fm ( f , painter . device ( ) ) ;
/*if (txt.size()>1 && txt[txt.size()-1].isSpace()) {
QFontMetricsF fm ( f , painter . device ( ) ) ;
//if ((fm.width("a ")==fm.width("a"))) dx=fm.boundingRect("I").width();
} */
if ( ! hasDigits | | ! f . italic ( ) ) {
painter . drawText ( QPointF ( x + dx , y ) , txt ) ; //.simplified());
} else {
int i = 0 ;
double xx = x + dx ;
QFont ff = f ;
QFontMetricsF fmff ( ff , painter . device ( ) ) ;
ff . setItalic ( false ) ;
while ( i < txt . size ( ) ) {
if ( txt [ i ] . isDigit ( ) ) {
painter . setFont ( ff ) ;
painter . drawText ( QPointF ( xx , y ) , QString ( txt [ i ] ) ) ;
xx = xx + fmff . width ( txt [ i ] ) ;
} else {
painter . setFont ( f ) ;
painter . drawText ( QPointF ( xx , y ) , QString ( txt [ i ] ) ) ;
xx = xx + fm . width ( txt [ i ] ) ;
}
i + + ;
}
}
painter . setPen ( pold ) ;
painter . setFont ( fold ) ;
return x + width ;
}
bool JKQTmathText : : MTtextNode : : toHtml ( QString & html , JKQTmathText : : MTenvironment currentEv , JKQTmathText : : MTenvironment defaultEv ) {
html = html + currentEv . toHtmlStart ( defaultEv ) + text + currentEv . toHtmlAfter ( defaultEv ) ;
return true ;
}
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QString JKQTmathText : : MTtextNode : : getTypeName ( ) const
{
return QLatin1String ( " MTtextNode( " ) + text + " ) " ;
}
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QString JKQTmathText : : MTtextNode : : textTransform ( const QString & text , JKQTmathText : : MTenvironment currentEv , bool /*forSize*/ )
{
QString txt = text ;
if ( parent - > get_fontEncoding ( ) = = MTFEunicode ) {
if ( currentEv . insideMath ) {
txt = " " ;
for ( int i = 0 ; i < text . size ( ) ; i + + ) {
QChar c = text [ i ] ;
switch ( c . unicode ( ) ) {
case ' - ' : txt + = QString ( QString ( " " ) + QChar ( 0x2212 ) ) ; break ;
case ' + ' : txt + = QString ( QString ( " + " ) ) ; break ;
case ' / ' : txt + = QString ( QString ( " / " ) ) ; break ;
case ' < ' : txt + = QString ( QString ( " < " ) ) ; break ;
case ' > ' : txt + = QString ( QString ( " > " ) ) ; break ;
case ' = ' : txt + = QString ( QString ( " = " ) ) ; break ;
case ' ; ' : txt + = QString ( QString ( " ; " ) ) ; break ;
default : txt + = c ; break ;
}
}
txt = txt . replace ( " " , " " ) ;
}
}
if ( currentEv . font = = MTEblackboard & & parent - > get_fontEncoding ( ) = = MTFEunicode ) {
txt = " " ;
for ( int i = 0 ; i < text . size ( ) ; i + + ) {
QChar c = text [ i ] ;
switch ( c . unicode ( ) ) {
case ' C ' : txt + = QChar ( 0x2102 ) ; break ;
case ' H ' : txt + = QChar ( 0x210D ) ; break ;
case ' N ' : txt + = QChar ( 0x2115 ) ; break ;
case ' P ' : txt + = QChar ( 0x2119 ) ; break ;
case ' Q ' : txt + = QChar ( 0x211A ) ; break ;
case ' R ' : txt + = QChar ( 0x211D ) ; break ;
case ' Z ' : txt + = QChar ( 0x2124 ) ; break ;
case ' d ' : txt + = QChar ( 0x2146 ) ; break ;
case ' e ' : txt + = QChar ( 0x2147 ) ; break ;
case ' i ' : txt + = QChar ( 0x2148 ) ; break ;
case ' j ' : txt + = QChar ( 0x2149 ) ; break ;
default : txt + = c ; break ;
}
}
}
if ( currentEv . font = = MTEcaligraphic & & parent - > get_fontEncoding ( ) = = MTFEunicode ) {
txt = " " ;
for ( int i = 0 ; i < text . size ( ) ; i + + ) {
QChar c = text [ i ] ;
switch ( c . unicode ( ) ) {
case ' I ' : txt + = QChar ( 0x2110 ) ; break ;
case ' g ' : txt + = QChar ( 0x210A ) ; break ;
case ' H ' : txt + = QChar ( 0x210B ) ; break ;
case ' L ' : txt + = QChar ( 0x2112 ) ; break ;
case ' l ' : txt + = QChar ( 0x2113 ) ; break ;
case ' p ' : txt + = QChar ( 0x2118 ) ; break ;
case ' R ' : txt + = QChar ( 0x211B ) ; break ;
case ' B ' : txt + = QChar ( 0x212C ) ; break ;
case ' e ' : txt + = QChar ( 0x212F ) ; break ;
case ' E ' : txt + = QChar ( 0x2130 ) ; break ;
case ' F ' : txt + = QChar ( 0x2131 ) ; break ;
case ' M ' : txt + = QChar ( 0x2133 ) ; break ;
case ' o ' : txt + = QChar ( 0x2134 ) ; break ;
default : txt + = c ; break ;
}
}
}
return txt ;
}
JKQTmathText : : MTinstruction1Node : : MTinstruction1Node ( JKQTmathText * parent , QString name , MTnode * child , const QStringList & parameters ) :
JKQTmathText : : MTnode ( parent )
{
this - > name = name ;
this - > child = child ;
this - > parameters = parameters ;
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JKQTmathText : : MTenvironment ev ;
if ( ! setupMTenvironment ( ev ) ) {
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parent - > error_list . append ( tr ( " unknown instruction '%1' found! " ) . arg ( name ) ) ;
}
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}
JKQTmathText : : MTinstruction1Node : : ~ MTinstruction1Node ( ) {
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if ( child ! = nullptr ) delete child ;
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}
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QString JKQTmathText : : MTinstruction1Node : : getTypeName ( ) const
{
return QLatin1String ( " MTinstruction1Node( " ) + name + " ) " ;
}
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void JKQTmathText : : MTinstruction1Node : : getSizeInternal ( QPainter & painter , JKQTmathText : : MTenvironment currentEv , double & width , double & baselineHeight , double & overallHeight , double & strikeoutPos ) {
JKQTmathText : : MTenvironment ev = currentEv ;
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setupMTenvironment ( ev ) ;
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child - > getSize ( painter , ev , width , baselineHeight , overallHeight , strikeoutPos ) ;
if ( name = = " colorbox " | | name = = " fbox " | | name = = " boxed " ) {
QFontMetricsF fm ( ev . getFont ( parent ) ) ;
double xw = fm . width ( " x " ) ;
width + = xw ;
overallHeight + = xw ;
baselineHeight + = xw / 2.0 ;
}
}
double JKQTmathText : : MTinstruction1Node : : draw ( QPainter & painter , double x , double y , JKQTmathText : : MTenvironment currentEv ) {
doDrawBoxes ( painter , x , y , currentEv ) ;
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JKQTmathText : : MTenvironment ev = currentEv ;
setupMTenvironment ( ev ) ;
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QPen oldPen = painter . pen ( ) ;
double shiftX = 0 ;
if ( name = = " colorbox " | | name = = " fbox " | | name = = " boxed " ) {
QColor fcol = currentEv . color ;
if ( name = = " colorbox " ) fcol = QColor ( parameters . value ( 0 , ev . color . name ( ) ) ) ;
//qDebug()<<"COLOR="<<fcol;
double width , baselineHeight , overallHeight , strikeoutPos ;
child - > getSize ( painter , currentEv , width , baselineHeight , overallHeight , strikeoutPos ) ;
QPen p = painter . pen ( ) ;
QFontMetricsF fm ( currentEv . getFont ( parent ) ) ;
double xw = fm . width ( " x " ) ;
p . setColor ( fcol ) ;
painter . setPen ( p ) ;
painter . drawRect ( x , y - baselineHeight - xw / 2 , width + xw , overallHeight + xw ) ;
shiftX = xw / 2.0 ;
}
double xnew = child - > draw ( painter , x + shiftX , y , ev ) ;
painter . setPen ( oldPen ) ;
return xnew ;
}
bool JKQTmathText : : MTinstruction1Node : : toHtml ( QString & html , JKQTmathText : : MTenvironment currentEv , JKQTmathText : : MTenvironment defaultEv ) {
JKQTmathText : : MTenvironment ev = currentEv ;
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setupMTenvironment ( ev ) ;
return child - > toHtml ( html , ev , defaultEv ) ;
}
void JKQTmathText : : MTinstruction1Node : : set_drawBoxes ( bool draw )
{
drawBoxes = draw ;
child - > set_drawBoxes ( draw ) ;
}
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bool JKQTmathText : : MTinstruction1Node : : setupMTenvironment ( JKQTmathText : : MTenvironment & ev )
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{
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if ( name = = " bf " | | name = = " textbf " | | name = = " mathbf " ) ev . bold = true ;
else if ( name = = " em " ) ev . italic = ! ev . italic ;
else if ( name = = " it " | | name = = " textit " | | name = = " mathit " ) ev . italic = true ;
else if ( name = = " textcolor " | | name = = " mathcolor " | | name = = " color " ) ev . color = QColor ( parameters . value ( 0 , ev . color . name ( ) ) ) ;
else if ( name = = " equation " ) { ev . italic = true ; ev . insideMath = true ; }
else if ( name = = " sc " | | name = = " textsc " | | name = = " mathsc " ) ev . smallCaps = true ;
else if ( name = = " ul " | | name = = " underline " | | name = = " underlined " ) ev . underlined = true ;
else if ( name = = " ol " | | name = = " overline " | | name = = " overlined " ) ev . overline = true ;
else if ( name = = " strike " ) ev . strike = true ;
else if ( name = = " rm " | | name = = " textrm " ) { ev . font = JKQTmathText : : MTEroman ; }
else if ( name = = " mathrm " | | name = = " text " | | name = = " mbox " | | name = = " operatorname " ) { ev . font = JKQTmathText : : MTEroman ; ev . italic = false ; }
else if ( name = = " mat " ) { ev . font = JKQTmathText : : MTEroman ; ev . italic = false ; ev . bold = true ; }
else if ( name = = " cal " | | name = = " textcal " | | name = = " mathcal " ) { ev . font = JKQTmathText : : MTEcaligraphic ; }
else if ( name = = " bb " | | name = = " textbb " | | name = = " mathbb " ) { ev . font = JKQTmathText : : MTEblackboard ; }
else if ( name = = " tt " | | name = = " texttt " | | name = = " mathtt " ) { ev . font = JKQTmathText : : MTEtypewriter ; }
else if ( name = = " sf " | | name = = " textsf " | | name = = " mathsf " ) { ev . font = JKQTmathText : : MTEsans ; }
else if ( name = = " script " | | name = = " textscript " | | name = = " mathscript " ) { ev . font = JKQTmathText : : MTEscript ; }
else if ( name = = " displaystyle " ) { ev . fontSize = ev . fontSize / 0.8 ; }
else if ( name = = " scriptstyle " ) { ev . fontSize = ev . fontSize * 0.8 ; }
else if ( name = = " scriptscriptstyle " ) { ev . fontSize = ev . fontSize * 0.8 * 0.8 ; }
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else {
return false ;
}
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return true ;
}
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JKQTmathText : : MTsubscriptNode : : MTsubscriptNode ( JKQTmathText * parent , MTnode * child ) :
JKQTmathText : : MTnode ( parent )
{
this - > child = child ;
}
JKQTmathText : : MTsubscriptNode : : ~ MTsubscriptNode ( ) {
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if ( child ! = nullptr ) delete child ;
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}
void JKQTmathText : : MTsubscriptNode : : getSizeInternal ( QPainter & painter , JKQTmathText : : MTenvironment currentEv , double & width , double & baselineHeight , double & overallHeight , double & strikeoutPos ) {
JKQTmathText : : MTenvironment ev = currentEv ;
ev . fontSize = ev . fontSize * parent - > get_subsuper_size_factor ( ) ;
QFontMetricsF fm ( ev . getFont ( parent ) , painter . device ( ) ) ;
double shift = parent - > get_sub_shift_factor ( ) * parent - > getTBR ( ev . getFont ( parent ) , " M " , painter . device ( ) ) . height ( ) ;
child - > getSize ( painter , ev , width , baselineHeight , overallHeight , strikeoutPos ) ;
QFontMetricsF fmouter ( currentEv . getFont ( parent ) , painter . device ( ) ) ;
QRectF tbr = parent - > getTBR ( currentEv . getFont ( parent ) , " M " , painter . device ( ) ) ;
overallHeight = tbr . height ( ) + shift + ( overallHeight - baselineHeight ) ;
baselineHeight = tbr . height ( ) ;
strikeoutPos = fmouter . strikeOutPos ( ) ;
if ( currentEv . italic ) width = width - double ( fm . width ( ' ' ) ) * parent - > get_italic_correction_factor ( ) ;
}
double JKQTmathText : : MTsubscriptNode : : draw ( QPainter & painter , double x , double y , JKQTmathText : : MTenvironment currentEv ) {
doDrawBoxes ( painter , x , y , currentEv ) ;
JKQTmathText : : MTenvironment ev = currentEv ;
ev . fontSize = ev . fontSize * parent - > get_subsuper_size_factor ( ) ;
QFontMetricsF fm ( ev . getFont ( parent ) , painter . device ( ) ) ;
double shift = parent - > get_sub_shift_factor ( ) * parent - > getTBR ( ev . getFont ( parent ) , " M " , painter . device ( ) ) . height ( ) ;
double xx = x ;
if ( currentEv . italic ) xx = xx - double ( fm . width ( ' ' ) ) * parent - > get_italic_correction_factor ( ) ;
return child - > draw ( painter , xx , y + shift , ev ) ; //+0.5*fm.boundingRect("A").width();
}
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bool JKQTmathText : : MTsubscriptNode : : isSubOrSuper ( )
{
return true ;
}
QString JKQTmathText : : MTsubscriptNode : : getTypeName ( ) const
{
return " MTsubscriptNode " ;
}
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bool JKQTmathText : : MTsubscriptNode : : toHtml ( QString & html , JKQTmathText : : MTenvironment currentEv , JKQTmathText : : MTenvironment defaultEv ) {
html = html + " <sub> " ;
bool ok = child - > toHtml ( html , currentEv , defaultEv ) ;
html = html + " </sub> " ;
return ok ;
}
void JKQTmathText : : MTsubscriptNode : : set_drawBoxes ( bool draw )
{
this - > drawBoxes = draw ;
child - > set_drawBoxes ( draw ) ;
}
JKQTmathText : : MTsqrtNode : : MTsqrtNode ( JKQTmathText * parent , MTnode * child , int degree ) :
JKQTmathText : : MTnode ( parent )
{
this - > child = child ;
this - > degree = degree ;
}
JKQTmathText : : MTsqrtNode : : ~ MTsqrtNode ( ) {
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if ( child ! = nullptr ) delete child ;
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}
void JKQTmathText : : MTsqrtNode : : getSizeInternal ( QPainter & painter , JKQTmathText : : MTenvironment currentEv , double & width , double & baselineHeight , double & overallHeight , double & strikeoutPos ) {
QFontMetricsF fm ( currentEv . getFont ( parent ) , painter . device ( ) ) ;
child - > getSize ( painter , currentEv , width , baselineHeight , overallHeight , strikeoutPos ) ;
overallHeight = overallHeight * 1.2 ; //+fm.ascent()*0.1;
baselineHeight = baselineHeight * 1.2 ; //+fm.ascent()*0.1;
width = width + fm . boundingRect ( " A " ) . width ( ) * 2 ; // 1.53
}
double JKQTmathText : : MTsqrtNode : : draw ( QPainter & painter , double x , double y , JKQTmathText : : MTenvironment currentEv ) {
doDrawBoxes ( painter , x , y , currentEv ) ;
double width = 0 , baselineHeight = 0 , overallHeight = 0 , sp = 0 ;
child - > getSize ( painter , currentEv , width , baselineHeight , overallHeight , sp ) ;
QFont f = currentEv . getFont ( parent ) ;
QFont fsmall = f ;
QFontMetricsF fm ( f , painter . device ( ) ) ;
double w = fm . boundingRect ( " A " ) . width ( ) ;
double a = baselineHeight * 1.15 ;
double d = overallHeight - baselineHeight ;
//painter.save();
QPen p = painter . pen ( ) ;
p . setColor ( currentEv . color ) ;
p . setWidthF ( qMax ( JKQTMATHTEXT_ABS_MIN_LINEWIDTH , ceil ( currentEv . fontSize / 16.0 ) ) ) ;
//painter.setPen(p);
QPainterPath path ;
if ( w > 0 ) {
path . moveTo ( x + 0.1 * w , y - 0.4 * a ) ;
path . lineTo ( x + 0.33 * w , y - 0.4 * a ) ;
path . lineTo ( x + 0.66 * w , y + 0.5 * d ) ;
path . lineTo ( x + w , y - a ) ;
}
if ( degree ! = 2 ) {
fsmall . setPointSizeF ( fsmall . pointSizeF ( ) / 2.0 ) ;
fsmall . setItalic ( false ) ;
painter . setFont ( fsmall ) ;
painter . drawText ( QPointF ( x + 0.33 * w , y - 0.55 * a ) , QLocale : : c ( ) . toString ( degree ) ) ;
}
//painter.restore();
double xnew = child - > draw ( painter , x + 1.2 * w , y , currentEv ) ;
painter . save ( ) ;
painter . setPen ( p ) ;
if ( w > 0 ) {
path . lineTo ( xnew + 0.2 * w , y - a ) ;
path . lineTo ( xnew + 0.2 * w , y - 0.8 * a ) ;
painter . drawPath ( path ) ;
}
painter . restore ( ) ;
return xnew + 0.33 * w ;
}
bool JKQTmathText : : MTsqrtNode : : toHtml ( QString & html , JKQTmathText : : MTenvironment currentEv , JKQTmathText : : MTenvironment defaultEv ) {
html = html + " √<span style= \" text-decoration:overline \" > " ;
bool ok = child - > toHtml ( html , currentEv , defaultEv ) ;
html = html + " </span> " ;
return ok ;
}
void JKQTmathText : : MTsqrtNode : : set_drawBoxes ( bool draw )
{
this - > drawBoxes = draw ;
child - > set_drawBoxes ( draw ) ;
}
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QString JKQTmathText : : MTsqrtNode : : getTypeName ( ) const
{
return " MTsqrtNode " ;
}
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JKQTmathText : : MTfracNode : : MTfracNode ( JKQTmathText * parent , MTnode * child_top , MTnode * child_bottom , MTfracMode mode ) :
JKQTmathText : : MTnode ( parent )
{
this - > child1 = child_top ;
this - > child2 = child_bottom ;
this - > mode = mode ;
}
JKQTmathText : : MTfracNode : : ~ MTfracNode ( ) {
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if ( child1 ! = nullptr ) delete child1 ;
if ( child2 ! = nullptr ) delete child2 ;
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}
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QString JKQTmathText : : MTfracNode : : getTypeName ( ) const
{
return " MTfracNode " ;
}
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void JKQTmathText : : MTfracNode : : getSizeInternal ( QPainter & painter , JKQTmathText : : MTenvironment currentEv , double & width , double & baselineHeight , double & overallHeight , double & strikeoutPos ) {
QFontMetricsF fm ( currentEv . getFont ( parent ) , painter . device ( ) ) ;
JKQTmathText : : MTenvironment ev1 = currentEv ;
JKQTmathText : : MTenvironment ev2 = currentEv ;
double xh = fm . xHeight ( ) ; //tightBoundingRect("x").height();
double sp = xh ;
double Ah = parent - > getTBR ( currentEv . getFont ( parent ) , " M " , painter . device ( ) ) . height ( ) ; //fm.ascent();
double xw = fm . boundingRect ( " x " ) . width ( ) ;
if ( mode = = MTFMunderbrace | | mode = = MTFMoverbrace ) {
ev2 . fontSize = ev2 . fontSize * parent - > get_underbrace_factor ( ) ;
} else if ( mode = = MTFMunderset | | mode = = MTFMoverset ) {
ev2 . fontSize = ev2 . fontSize * parent - > get_underset_factor ( ) ;
} else if ( mode = = MTFMfrac ) {
ev1 . fontSize = ev1 . fontSize * parent - > get_frac_factor ( ) ;
ev2 . fontSize = ev2 . fontSize * parent - > get_frac_factor ( ) ;
} else if ( mode = = MTFMtfrac ) {
ev1 . fontSize = ev1 . fontSize * parent - > get_frac_factor ( ) * 0.7 ;
ev2 . fontSize = ev2 . fontSize * parent - > get_frac_factor ( ) * 0.7 ;
}
double width1 = 0 , baselineHeight1 = 0 , overallHeight1 = 0 , strikeoutPos1 = 0 ;
double width2 = 0 , baselineHeight2 = 0 , overallHeight2 = 0 , strikeoutPos2 = 0 ;
child1 - > getSize ( painter , ev1 , width1 , baselineHeight1 , overallHeight1 , strikeoutPos1 ) ;
child2 - > getSize ( painter , ev2 , width2 , baselineHeight2 , overallHeight2 , strikeoutPos2 ) ;
overallHeight = 0 ;
baselineHeight = 0 ;
width = 0 ;
if ( mode = = MTFMfrac | | mode = = MTFMdfrac | | mode = = MTFMtfrac ) {
//std::cout<<"\nxh="<<xh;
//std::cout<<"\n baselineHeight1="<<baselineHeight1<<", overallHeight1="<<overallHeight1;
//std::cout<<"\n baselineHeight2="<<baselineHeight2<<", overallHeight2="<<overallHeight2<<std::endl;
//overallHeight=overallHeight1+overallHeight2+sp*(2.0*parent->get_frac_shift_factor());
//baselineHeight=overallHeight1+xh*(2.0*parent->get_frac_shift_factor());
overallHeight = 2.0 * qMax ( overallHeight1 , overallHeight2 ) + sp * ( 2.0 * parent - > get_frac_shift_factor ( ) ) ;
baselineHeight = qMax ( overallHeight1 , overallHeight2 ) + xh * ( 2.0 * parent - > get_frac_shift_factor ( ) ) ;
//std::cout<<"=> baselineHeight="<<baselineHeight<<", overallHeight="<<overallHeight<<std::endl;
width = qMax ( width1 , width2 ) + xw ;
strikeoutPos = sp ;
} else if ( mode = = MTFMstackrel ) {
//overallHeight=overallHeight1+overallHeight2+sp*(2.0*parent->get_frac_shift_factor());
//baselineHeight=overallHeight1+xh*(2.0*parent->get_frac_shift_factor());
overallHeight = 2.0 * qMax ( overallHeight1 , overallHeight2 ) + sp * ( 2.0 * parent - > get_frac_shift_factor ( ) ) ;
baselineHeight = qMax ( overallHeight1 , overallHeight2 ) + xh * ( 2.0 * parent - > get_frac_shift_factor ( ) ) ;
width = qMax ( width1 , width2 ) + xw ;
strikeoutPos = sp ;
} else if ( mode = = MTFMunderbrace ) {
overallHeight = overallHeight1 + overallHeight2 + Ah / 2.0 ;
baselineHeight = baselineHeight1 ;
width = qMax ( width1 , width2 ) + xw ;
strikeoutPos = sp ;
} else if ( mode = = MTFMoverbrace ) {
overallHeight = overallHeight1 + overallHeight2 + Ah / 2.0 ;
baselineHeight = baselineHeight1 + overallHeight2 + Ah / 2.0 ;
width = qMax ( width1 , width2 ) + xw ;
strikeoutPos = sp ;
} else if ( mode = = MTFMunderset ) {
overallHeight = overallHeight1 + overallHeight2 + xh / 6.0 ;
baselineHeight = baselineHeight1 ;
width = qMax ( width1 , width2 ) + xw ;
strikeoutPos = sp ;
} else if ( mode = = MTFMoverset ) {
overallHeight = overallHeight1 + overallHeight2 + xh / 6.0 ;
baselineHeight = baselineHeight1 + overallHeight2 + xh / 6.0 ;
width = qMax ( width1 , width2 ) + xw ;
strikeoutPos = sp ;
}
}
double JKQTmathText : : MTfracNode : : draw ( QPainter & painter , double x , double y , JKQTmathText : : MTenvironment currentEv ) {
doDrawBoxes ( painter , x , y , currentEv ) ;
QFont f = currentEv . getFont ( parent ) ;
QFontMetricsF fm ( f , painter . device ( ) ) ;
JKQTmathText : : MTenvironment ev1 = currentEv ;
JKQTmathText : : MTenvironment ev2 = currentEv ;
double xh = parent - > getTBR ( f , " x " , painter . device ( ) ) . height ( ) ; //fm.xHeight();
double xw = fm . boundingRect ( " x " ) . width ( ) ;
double lw = qMax ( 0.0 , ceil ( currentEv . fontSize / 16.0 ) ) ; //fm.lineWidth();
double Ah = parent - > getTBR ( f , " M " , painter . device ( ) ) . height ( ) ; //fm.ascent();
double bw = Ah / 2.0 ;
if ( mode = = MTFMunderbrace | | mode = = MTFMoverbrace ) {
ev2 . fontSize = ev2 . fontSize * parent - > get_underbrace_factor ( ) ;
} else if ( mode = = MTFMunderset | | mode = = MTFMoverset ) {
ev2 . fontSize = ev2 . fontSize * parent - > get_underset_factor ( ) ;
} else if ( mode = = MTFMfrac ) {
ev1 . fontSize = ev1 . fontSize * parent - > get_frac_factor ( ) ;
ev2 . fontSize = ev2 . fontSize * parent - > get_frac_factor ( ) ;
} else if ( mode = = MTFMtfrac ) {
ev1 . fontSize = ev1 . fontSize * parent - > get_frac_factor ( ) * 0.7 ;
ev2 . fontSize = ev2 . fontSize * parent - > get_frac_factor ( ) * 0.7 ;
}
double width1 = 0 , baselineHeight1 = 0 , overallHeight1 = 0 ; //, strikeoutPos1=0;
double width2 = 0 , baselineHeight2 = 0 , overallHeight2 = 0 , strikeoutPos = 0 ;
child1 - > getSize ( painter , ev1 , width1 , baselineHeight1 , overallHeight1 , strikeoutPos ) ;
child2 - > getSize ( painter , ev2 , width2 , baselineHeight2 , overallHeight2 , strikeoutPos ) ;
double ascent1 = baselineHeight1 ;
double descent1 = overallHeight1 - baselineHeight1 ;
double ascent2 = baselineHeight2 ;
double descent2 = overallHeight2 - baselineHeight2 ;
double yline = y - xh * 0.5 ;
//double overallHeight=overallHeight1+overallHeight2+xh;
//double baselineHeight=3.0*xh/2.0+overallHeight1;
double width = qMax ( width1 , width2 ) ;
QPen p = painter . pen ( ) ;
p . setColor ( ev1 . color ) ;
p . setStyle ( Qt : : SolidLine ) ;
p . setWidthF ( qMax ( JKQTMATHTEXT_ABS_MIN_LINEWIDTH , lw ) ) ;
painter . save ( ) ;
painter . setPen ( p ) ;
if ( mode = = MTFMfrac | | mode = = MTFMdfrac | | mode = = MTFMtfrac ) {
QLineF l ( x + xw / 4.0 , yline , x + width + xw / 2.0 , yline ) ;
if ( l . length ( ) > 0 ) painter . drawLine ( l ) ;
child1 - > draw ( painter , x + xw / 2.0 + ( width - width1 ) / 2.0 , yline - xh * ( parent - > get_frac_shift_factor ( ) ) - descent1 , ev1 ) ;
child2 - > draw ( painter , x + xw / 2.0 + ( width - width2 ) / 2.0 , yline + xh * ( parent - > get_frac_shift_factor ( ) ) + ascent2 , ev2 ) ;
} else if ( mode = = MTFMstackrel ) {
child1 - > draw ( painter , x + xw / 2.0 + ( width - width1 ) / 2.0 , yline - xh * ( parent - > get_frac_shift_factor ( ) ) - descent1 , ev1 ) ;
child2 - > draw ( painter , x + xw / 2.0 + ( width - width2 ) / 2.0 , yline + xh * ( parent - > get_frac_shift_factor ( ) ) + ascent2 , ev2 ) ;
} else if ( mode = = MTFMunderset ) {
child1 - > draw ( painter , x + xw / 2.0 + ( width - width1 ) / 2.0 , y , ev1 ) ;
child2 - > draw ( painter , x + xw / 2.0 + ( width - width2 ) / 2.0 , y + descent1 + xh / 6.0 + ascent2 , ev2 ) ;
} else if ( mode = = MTFMunderbrace ) {
double ybrace = y + descent1 + bw / 2.0 ;
QPainterPath path = makeHBracePath ( x + xw / 2.0 + ( width1 ) / 2.0 , ybrace , width , bw ) ;
painter . drawPath ( path ) ;
child1 - > draw ( painter , x + xw / 2.0 + ( width - width1 ) / 2.0 , y , ev1 ) ;
child2 - > draw ( painter , x + xw / 2.0 + ( width - width2 ) / 2.0 , y + descent1 + bw + ascent2 , ev2 ) ;
} else if ( mode = = MTFMoverset ) {
child1 - > draw ( painter , x + xw / 2.0 + ( width - width1 ) / 2.0 , y , ev1 ) ;
child2 - > draw ( painter , x + xw / 2.0 + ( width - width2 ) / 2.0 , y - ascent1 - xh / 6.0 - descent2 , ev2 ) ;
} else if ( mode = = MTFMoverbrace ) {
double ybrace = y - ascent1 - bw / 2.0 ;
painter . save ( ) ;
painter . translate ( x + xw / 2.0 + ( width1 ) / 2.0 , ybrace ) ;
painter . rotate ( 180 ) ;
QPainterPath path = makeHBracePath ( 0 , 0 , width , bw ) ;
painter . drawPath ( path ) ;
painter . restore ( ) ;
child1 - > draw ( painter , x + xw / 2.0 + ( width - width1 ) / 2.0 , y , ev1 ) ;
child2 - > draw ( painter , x + xw / 2.0 + ( width - width2 ) / 2.0 , y - ascent1 - bw - descent2 , ev2 ) ;
}
painter . restore ( ) ;
if ( mode = = MTFMstackrel ) return x + width + xw ;
return x + width + xw ;
}
bool JKQTmathText : : MTfracNode : : toHtml ( QString & /*html*/ , JKQTmathText : : MTenvironment /*currentEv*/ , JKQTmathText : : MTenvironment /*defaultEv*/ ) {
bool ok = false ;
return ok ;
}
void JKQTmathText : : MTfracNode : : set_drawBoxes ( bool draw )
{
this - > drawBoxes = draw ;
child1 - > set_drawBoxes ( draw ) ;
child2 - > set_drawBoxes ( draw ) ;
}
JKQTmathText : : MTmatrixNode : : MTmatrixNode ( JKQTmathText * parent , QVector < QVector < MTnode * > > children ) :
JKQTmathText : : MTnode ( parent )
{
this - > lines = children . size ( ) ;
this - > columns = 0 ;
for ( int i = 0 ; i < children . size ( ) ; i + + ) {
if ( children [ i ] . size ( ) > this - > columns ) this - > columns = children [ i ] . size ( ) ;
}
this - > children = children ;
}
JKQTmathText : : MTmatrixNode : : ~ MTmatrixNode ( ) {
for ( int i = 0 ; i < children . size ( ) ; i + + ) {
for ( int j = 0 ; j < children [ i ] . size ( ) ; j + + ) {
delete children [ i ] . at ( j ) ;
}
}
children . clear ( ) ;
}
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QString JKQTmathText : : MTmatrixNode : : getTypeName ( ) const
{
return " MTmatrixNode " ;
}
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void JKQTmathText : : MTmatrixNode : : getSizeInternal ( QPainter & painter , JKQTmathText : : MTenvironment currentEv , double & width , double & baselineHeight , double & overallHeight , double & strikeoutPos ) {
QFontMetricsF fm ( currentEv . getFont ( parent ) , painter . device ( ) ) ;
JKQTmathText : : MTenvironment ev1 = currentEv ;
double xh = fm . strikeOutPos ( ) ; //fm.xHeight();
//double Ah=fm.ascent();
double xw = fm . boundingRect ( " x " ) . width ( ) ;
//ev1.fontSize=ev1.fontSize*parent->get_frac_factor();
QVector < double > colwidth , rowheight ;
//QVector<QVector<double> > widths, heights, baselines;
double width1 = 0 , baselineHeight1 = 0 , overallHeight1 = 0 , strikeoutPos1 = 0 ;
//widths.resize(lines);
colwidth . resize ( columns ) ; for ( int i = 0 ; i < columns ; i + + ) colwidth [ i ] = 0 ;
rowheight . resize ( lines ) ;
//heights=baselines=widths;
for ( int i = 0 ; i < lines ; i + + ) {
rowheight [ i ] = 0 ;
//widths[i].resize(columns);
//baselines[i]=heights[i]=widths[i];
for ( int j = 0 ; j < children [ i ] . size ( ) ; j + + ) {
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children [ i ] . at ( j ) - > getSize ( painter , ev1 , width1 , baselineHeight1 , overallHeight1 , strikeoutPos1 ) ;
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/*widths[i].operator[](j)=width1;
baselines [ i ] . operator [ ] ( j ) = baselineHeight ;
heights [ i ] . operator [ ] ( j ) = overallHeight1 ; */
if ( overallHeight1 > rowheight [ i ] ) rowheight [ i ] = overallHeight1 ;
if ( width1 > colwidth [ j ] ) colwidth [ j ] = width1 ;
}
}
overallHeight = ( lines - 1 ) * xw / 2.0 ;
width = columns * xw ;
for ( int i = 0 ; i < columns ; i + + ) width = width + colwidth [ i ] ;
for ( int i = 0 ; i < lines ; i + + ) overallHeight = overallHeight + rowheight [ i ] ;
baselineHeight = overallHeight / 2.0 + xh ;
strikeoutPos = xh ;
}
double JKQTmathText : : MTmatrixNode : : draw ( QPainter & painter , double x , double y , JKQTmathText : : MTenvironment currentEv ) {
doDrawBoxes ( painter , x , y , currentEv ) ;
QFontMetricsF fm ( currentEv . getFont ( parent ) , painter . device ( ) ) ;
JKQTmathText : : MTenvironment ev1 = currentEv ;
double xh = fm . strikeOutPos ( ) ; //fm.xHeight();
//double Ah=fm.ascent();
double xw = fm . boundingRect ( " x " ) . width ( ) ;
//ev1.fontSize=ev1.fontSize;*parent->get_frac_factor();
QVector < double > colwidth , rowheight , rowascent ;
//QVector<QVector<double> > widths, heights, baselines;
double width1 = 0 , baselineHeight1 = 0 , overallHeight1 = 0 , strikeoutPos = 0 ;
//widths.resize(lines);
colwidth . resize ( columns ) ; for ( int i = 0 ; i < columns ; i + + ) colwidth [ i ] = 0 ;
rowheight . resize ( lines ) ;
rowascent . resize ( lines ) ;
//heights=baselines=widths;
for ( int i = 0 ; i < lines ; i + + ) {
rowheight [ i ] = 0 ;
rowascent [ i ] = 0 ;
//widths[i].resize(columns);
//baselines[i]=heights[i]=widths[i];
for ( int j = 0 ; j < children [ i ] . size ( ) ; j + + ) {
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if ( children [ i ] . at ( j ) ! = nullptr ) children [ i ] . at ( j ) - > getSize ( painter , ev1 , width1 , baselineHeight1 , overallHeight1 , strikeoutPos ) ;
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/*widths[i].operator[](j)=width1;
baselines [ i ] . operator [ ] ( j ) = baselineHeight ;
heights [ i ] . operator [ ] ( j ) = overallHeight1 ; */
if ( overallHeight1 > rowheight [ i ] ) rowheight [ i ] = overallHeight1 ;
if ( baselineHeight1 > rowascent [ i ] ) rowascent [ i ] = baselineHeight1 ;
if ( width1 > colwidth [ j ] ) colwidth [ j ] = width1 ;
}
}
double overallHeight = ( lines - 1 ) * xw / 2.0 ;
double width = ( columns ) * xw ;
for ( int i = 0 ; i < columns ; i + + ) width = width + colwidth [ i ] ;
for ( int i = 0 ; i < lines ; i + + ) overallHeight = overallHeight + rowheight [ i ] ;
double baselineHeight = overallHeight / 2.0 + xh ;
double xx = x ;
double yy = y - baselineHeight ;
if ( lines > 0 ) yy = yy + rowascent [ 0 ] ;
for ( int i = 0 ; i < lines ; i + + ) {
xx = x ;
for ( int j = 0 ; j < children [ i ] . size ( ) ; j + + ) {
children [ i ] . at ( j ) - > draw ( painter , xx , yy , ev1 ) ;
xx = xx + colwidth [ j ] + xw ;
}
if ( i < lines - 1 ) yy = yy + ( rowheight [ i ] - rowascent [ i ] ) + xw / 2.0 + rowascent [ i + 1 ] ;
}
return x + width ;
}
bool JKQTmathText : : MTmatrixNode : : toHtml ( QString & /*html*/ , JKQTmathText : : MTenvironment /*currentEv*/ , JKQTmathText : : MTenvironment /*defaultEv*/ )
{
return false ;
}
void JKQTmathText : : MTmatrixNode : : set_drawBoxes ( bool draw )
{
this - > drawBoxes = draw ;
for ( int i = 0 ; i < lines ; i + + ) {
for ( int j = 0 ; j < children [ i ] . size ( ) ; j + + ) {
children [ i ] . at ( j ) - > set_drawBoxes ( draw ) ;
}
}
}
JKQTmathText : : MTdecoratedNode : : MTdecoratedNode ( JKQTmathText * parent , MTdecoration decoration , MTnode * child ) :
JKQTmathText : : MTnode ( parent )
{
this - > child = child ;
this - > decoration = decoration ;
}
JKQTmathText : : MTdecoratedNode : : ~ MTdecoratedNode ( ) {
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if ( child ! = nullptr ) delete child ;
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}
void JKQTmathText : : MTdecoratedNode : : getSizeInternal ( QPainter & painter , JKQTmathText : : MTenvironment currentEv , double & width , double & baselineHeight , double & overallHeight , double & strikeoutPos ) {
QFontMetricsF fm ( currentEv . getFont ( parent ) , painter . device ( ) ) ;
double wc = fm . boundingRect ( " A " ) . width ( ) ;
double dheightfactor = 1.0 + parent - > get_decoration_height_factor ( ) * 2.0 ;
child - > getSize ( painter , currentEv , width , baselineHeight , overallHeight , strikeoutPos ) ;
overallHeight = overallHeight * dheightfactor ;
baselineHeight = baselineHeight * dheightfactor ;
width = width + 0.3 * wc ;
}
double JKQTmathText : : MTdecoratedNode : : draw ( QPainter & painter , double x , double y , JKQTmathText : : MTenvironment currentEv ) {
doDrawBoxes ( painter , x , y , currentEv ) ;
MTenvironment ev = currentEv ;
double width = 0 , baselineHeight = 0 , overallHeight = 0 , strikeoutPos = 0 ;
child - > getSize ( painter , ev , width , baselineHeight , overallHeight , strikeoutPos ) ;
QFontMetricsF fm ( ev . getFont ( parent ) , painter . device ( ) ) ;
double w = width ;
double wc = fm . boundingRect ( " A " ) . width ( ) ;
//double ll=wc*0.8;
double a = baselineHeight ;
//double d=overallHeight-baselineHeight;
double dheightfactor = parent - > get_decoration_height_factor ( ) ;
double dpos = y - a * ( 1.0 + dheightfactor ) ;
double dposb = y + qMax ( ( overallHeight - baselineHeight ) * ( 1.0 + dheightfactor ) , fm . xHeight ( ) * dheightfactor ) ;
double deltax = 0 ; //(wc-ll)/2.0;
double dheight = dheightfactor * a ;
if ( ev . italic ) deltax + = 0.1 * fm . boundingRect ( " A " ) . width ( ) ;
QPen pold = painter . pen ( ) ;
QPen p = pold ;
p . setColor ( ev . color ) ;
p . setWidthF ( qMax ( JKQTMATHTEXT_ABS_MIN_LINEWIDTH , fm . lineWidth ( ) ) ) ; //ceil(currentEv.fontSize/16.0));
if ( decoration = = MTDbar ) ev . overline = true ;
double xnew = child - > draw ( painter , x , y , ev ) ;
if ( decoration = = MTDvec ) {
painter . setPen ( p ) ;
QPolygonF poly ;
poly < < QPointF ( x + deltax , dpos ) < < QPointF ( xnew + deltax - 0.2 * wc , dpos ) < < QPointF ( xnew - 0.4 * wc + deltax , dpos - dheight / 2.0 ) ;
painter . drawPolyline ( poly ) ;
painter . setPen ( pold ) ;
} else if ( decoration = = MTDoverline ) {
painter . setPen ( p ) ;
QLineF l ( x + deltax , dpos , xnew + deltax - 0.2 * wc , dpos ) ;
if ( l . length ( ) > 0 ) painter . drawLine ( l ) ;
painter . setPen ( pold ) ;
} else if ( decoration = = MTDdoubleoverline ) {
painter . setPen ( p ) ;
QLineF l ( x + deltax , dpos , xnew + deltax - 0.2 * wc , dpos ) ;
if ( l . length ( ) > 0 ) painter . drawLine ( l ) ;
l = QLineF ( x + deltax , dpos - 2.0 * p . widthF ( ) , xnew + deltax - 0.2 * wc , dpos - 2.0 * p . widthF ( ) ) ;
if ( l . length ( ) > 0 ) painter . drawLine ( l ) ;
painter . setPen ( pold ) ;
} else if ( decoration = = MTDunderline ) {
painter . setPen ( p ) ;
QLineF l ( x + deltax , dposb , xnew + deltax - 0.2 * wc , dposb ) ;
if ( l . length ( ) > 0 ) painter . drawLine ( l ) ;
painter . setPen ( pold ) ;
} else if ( decoration = = MTDdoubleunderline ) {
painter . setPen ( p ) ;
QLineF l ( x + deltax , dposb , xnew + deltax - 0.2 * wc , dposb ) ;
if ( l . length ( ) > 0 ) painter . drawLine ( l ) ;
l = QLineF ( x + deltax , dposb + 2.0 * p . widthF ( ) , xnew + deltax - 0.2 * wc , dposb + 2.0 * p . widthF ( ) ) ;
if ( l . length ( ) > 0 ) painter . drawLine ( l ) ;
painter . setPen ( pold ) ;
} else if ( decoration = = MTDarrow ) {
painter . setPen ( p ) ;
QLineF l ( x + deltax , dpos + dheight / 2.0 , xnew + deltax - 0.2 * wc , dpos + dheight / 2.0 ) ;
if ( l . length ( ) > 0 ) painter . drawLine ( l ) ;
QPolygonF poly ;
poly < < QPointF ( xnew + deltax - 0.4 * wc , dpos ) < < QPointF ( xnew + deltax - 0.2 * wc , dpos + dheight / 2.0 ) < < QPointF ( xnew + deltax - 0.4 * wc , dpos + dheight ) ;
painter . drawPolyline ( poly ) ;
painter . setPen ( pold ) ;
/*} else if (decoration==MTDbar) {
painter . setPen ( p ) ;
painter . drawLine ( QLineF ( x + 0.2 * wc + deltax , dpos , xnew + 0.2 * wc + deltax , dpos ) ;
painter . setPen ( pold ) ; */
} else if ( decoration = = MTDhat ) {
painter . setPen ( p ) ;
QPolygonF poly ;
poly < < QPointF ( x + w / 2.0 - 0.35 * wc + deltax , dpos + dheight / 2.0 ) < < QPointF ( x + w / 2.0 + deltax , dpos ) < < QPointF ( x + w / 2.0 + 0.35 * wc + deltax , dpos + dheight / 2.0 ) ;
painter . drawPolyline ( poly ) ;
painter . setPen ( pold ) ;
} else if ( decoration = = MTDtilde ) {
painter . setPen ( p ) ;
QPainterPath path ;
double x0 = x + deltax ;
double x1 = xnew + deltax - 0.2 * wc ;
path . moveTo ( x0 , dpos ) ;
path . cubicTo ( ( x0 + x1 ) / 2.0 , dpos + dheight , ( x0 + x1 ) / 2.0 , dpos - dheight , x1 , dpos ) ;
painter . drawPath ( path ) ;
painter . setPen ( pold ) ;
} else if ( decoration = = MTDdot ) {
p . setWidthF ( 0.01 ) ;
painter . setPen ( p ) ;
QBrush b = painter . brush ( ) ;
QBrush bold = b ;
b . setColor ( ev . color ) ;
b . setStyle ( Qt : : SolidPattern ) ;
painter . setBrush ( b ) ;
painter . drawEllipse ( QPointF ( x + w / 2.0 + deltax , dpos ) , wc / 10.0 , wc / 10.0 ) ;
painter . setBrush ( bold ) ;
painter . setPen ( pold ) ;
} else if ( decoration = = MTDddot ) {
p . setWidthF ( 0.01 ) ;
painter . setPen ( p ) ;
QBrush b = painter . brush ( ) ;
QBrush bold = b ;
b . setColor ( ev . color ) ;
b . setStyle ( Qt : : SolidPattern ) ;
painter . setBrush ( b ) ;
painter . drawEllipse ( QPointF ( x + w / 2.0 - 0.2 * wc + deltax , dpos ) , wc / 10.0 , wc / 10.0 ) ;
painter . drawEllipse ( QPointF ( x + w / 2.0 + 0.2 * wc + deltax , dpos ) , wc / 10.0 , wc / 10.0 ) ;
painter . setBrush ( bold ) ;
painter . setPen ( pold ) ;
painter . setBrush ( bold ) ;
}
return xnew + 0.3 * wc ;
}
bool JKQTmathText : : MTdecoratedNode : : toHtml ( QString & /*html*/ , JKQTmathText : : MTenvironment /*currentEv*/ , JKQTmathText : : MTenvironment /*defaultEv*/ ) {
//QString f;
//JKQTmathText::MTenvironment ev=currentEv;
//bool ok=child->toHtml(html, ev, defaultEv);
return false ;
}
void JKQTmathText : : MTdecoratedNode : : set_drawBoxes ( bool draw )
{
this - > drawBoxes = draw ;
child - > set_drawBoxes ( draw ) ;
}
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QString JKQTmathText : : MTdecoratedNode : : getTypeName ( ) const
{
return " MTdecoratedNode " ;
}
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JKQTmathText : : MTsuperscriptNode : : MTsuperscriptNode ( JKQTmathText * parent , MTnode * child ) :
JKQTmathText : : MTnode ( parent )
{
this - > child = child ;
}
JKQTmathText : : MTsuperscriptNode : : ~ MTsuperscriptNode ( ) {
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if ( child ! = nullptr ) delete child ;
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}
void JKQTmathText : : MTsuperscriptNode : : getSizeInternal ( QPainter & painter , JKQTmathText : : MTenvironment currentEv , double & width , double & baselineHeight , double & overallHeight , double & strikeoutPos ) {
JKQTmathText : : MTenvironment ev = currentEv ;
ev . fontSize = ev . fontSize * parent - > get_subsuper_size_factor ( ) ;
QFontMetricsF fm ( currentEv . getFont ( parent ) , painter . device ( ) ) ;
child - > getSize ( painter , ev , width , baselineHeight , overallHeight , strikeoutPos ) ;
double shift = 0 ; //parent->get_super_shift_factor()*fm.ascent();
overallHeight = overallHeight + shift ;
strikeoutPos = fm . strikeOutPos ( ) ;
if ( currentEv . italic ) width = width + double ( fm . width ( ' ' ) ) * parent - > get_italic_correction_factor ( ) ;
}
double JKQTmathText : : MTsuperscriptNode : : draw ( QPainter & painter , double x , double y , JKQTmathText : : MTenvironment currentEv ) {
doDrawBoxes ( painter , x , y , currentEv ) ;
JKQTmathText : : MTenvironment ev = currentEv ;
ev . fontSize = ev . fontSize * parent - > get_subsuper_size_factor ( ) ;
double cwidth , cbaselineHeight , coverallheight , cStrikeoutPos ;
child - > getSize ( painter , ev , cwidth , cbaselineHeight , coverallheight , cStrikeoutPos ) ;
QFontMetricsF fm ( currentEv . getFont ( parent ) , painter . device ( ) ) ;
double shift = 0 ; //parent->get_super_shift_factor()*fm.ascent();
//double shift=ev.;
double xx = x ;
if ( currentEv . italic ) xx = xx + double ( fm . width ( ' ' ) ) * parent - > get_italic_correction_factor ( ) ;
return child - > draw ( painter , xx , y - shift , ev ) ; //+0.5*fm.boundingRect("A").width();
}
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bool JKQTmathText : : MTsuperscriptNode : : isSubOrSuper ( )
{
return true ;
}
QString JKQTmathText : : MTsuperscriptNode : : getTypeName ( ) const
{
return " MTsuperscriptNode " ;
}
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bool JKQTmathText : : MTsuperscriptNode : : toHtml ( QString & html , JKQTmathText : : MTenvironment currentEv , JKQTmathText : : MTenvironment defaultEv )
{
html = html + " <sup> " ;
bool ok = child - > toHtml ( html , currentEv , defaultEv ) ;
html = html + " </sup> " ;
return ok ;
}
void JKQTmathText : : MTsuperscriptNode : : set_drawBoxes ( bool draw )
{
this - > drawBoxes = draw ;
child - > set_drawBoxes ( draw ) ;
}
JKQTmathText : : MTbraceNode : : MTbraceNode ( JKQTmathText * parent , QString openbrace , QString closebrace , MTnode * child , bool showRightBrace ) :
JKQTmathText : : MTnode ( parent )
{
this - > child = child ;
this - > openbrace = openbrace ;
this - > closebrace = closebrace ;
this - > showRightBrace = showRightBrace ;
}
JKQTmathText : : MTbraceNode : : ~ MTbraceNode ( ) {
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if ( child ! = nullptr ) delete child ;
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}
void JKQTmathText : : MTbraceNode : : getSizeInternal ( QPainter & painter , JKQTmathText : : MTenvironment currentEv , double & width , double & baselineHeight , double & overallHeight , double & strikeoutPos ) {
JKQTmathText : : MTenvironment ev = currentEv ;
child - > getSize ( painter , currentEv , width , baselineHeight , overallHeight , strikeoutPos ) ;
double bracewidth = 0 , braceheight = 0 ;
getBraceWidth ( painter , ev , baselineHeight , overallHeight , bracewidth , braceheight ) ;
bracewidth = bracewidth / parent - > get_brace_shrink_factor ( ) ;
baselineHeight = /*qMin(baselineHeight, braceheight)*/ baselineHeight * parent - > get_brace_factor ( ) ;
overallHeight = qMax ( overallHeight , braceheight ) * parent - > get_brace_factor ( ) ; //fm.height();
width = width + bracewidth * 2.0 ;
}
double JKQTmathText : : MTbraceNode : : draw ( QPainter & painter , double x , double y , JKQTmathText : : MTenvironment currentEv ) {
//std::cout<<"drawing brace-node: '"<<openbrace.toStdString()<<"' ... '"<<closebrace.toStdString()<<"'\n";
doDrawBoxes ( painter , x , y , currentEv ) ;
JKQTmathText : : MTenvironment ev = currentEv ;
double width = 0 ;
double baselineHeight = 0 ;
double overallHeight = 0 , strikeoutPos = 0 ;
child - > getSize ( painter , currentEv , width , baselineHeight , overallHeight , strikeoutPos ) ;
double bracewidth = 0 , braceheight = 0 ;
getBraceWidth ( painter , ev , baselineHeight , overallHeight , bracewidth , braceheight ) ;
double cwidth = 0 ;
double cbaselineHeight = 0 ;
double coverallHeight = 0 , cstrikeoutPos = 0 ;
getSize ( painter , currentEv , cwidth , cbaselineHeight , coverallHeight , cstrikeoutPos ) ;
double lw = qMax ( 0.25 , ceil ( currentEv . fontSize / 12.0 ) ) ; //fm.lineWidth();
double xnew = x + lw ;
QPen pold = painter . pen ( ) ;
QPen p = pold ;
p . setWidthF ( lw ) ;
p . setColor ( currentEv . color ) ;
painter . setPen ( p ) ;
double brace_fraction = 0.85 ;
if ( openbrace = = " ( " ) {
QPainterPath path ;
double y1 = y + ( coverallHeight - cbaselineHeight ) ;
double y2 = y - cbaselineHeight ;
path . moveTo ( xnew + brace_fraction * bracewidth , y1 ) ;
path . cubicTo ( xnew , ( y1 + y2 ) / 2.0 + fabs ( y1 - y2 ) / 6.0 , xnew , ( y1 + y2 ) / 2.0 - fabs ( y1 - y2 ) / 6.0 , xnew + brace_fraction * bracewidth , y2 ) ;
painter . drawPath ( path ) ;
} else if ( openbrace = = " [ " ) {
QPainterPath path ;
double y1 = y + ( coverallHeight - cbaselineHeight ) ;
double y2 = y - cbaselineHeight ;
path . moveTo ( xnew + brace_fraction * bracewidth , y1 ) ;
path . lineTo ( xnew + lw / 2.0 , y1 ) ;
path . lineTo ( xnew + lw / 2.0 , y2 ) ;
path . lineTo ( xnew + brace_fraction * bracewidth , y2 ) ;
painter . drawPath ( path ) ;
} else if ( openbrace = = " { " ) {
QPainterPath path = makeHBracePath ( 0 , 0 , coverallHeight , bracewidth * brace_fraction ) ;
painter . save ( ) ;
painter . translate ( xnew + bracewidth * ( 1.0 - brace_fraction ) , y - cbaselineHeight + coverallHeight / 2.0 ) ;
painter . rotate ( 90 ) ;
painter . drawPath ( path ) ;
painter . restore ( ) ;
} else if ( openbrace = = " _ " ) {
QPainterPath path ;
double y1 = y + ( coverallHeight - cbaselineHeight ) ;
double y2 = y - cbaselineHeight ;
path . moveTo ( xnew + brace_fraction * bracewidth , y1 ) ;
path . lineTo ( xnew , y1 ) ;
path . lineTo ( xnew , y2 ) ;
painter . drawPath ( path ) ;
} else if ( openbrace = = " ~ " ) {
QPainterPath path ;
double y1 = y + ( coverallHeight - cbaselineHeight ) ;
double y2 = y - cbaselineHeight ;
path . moveTo ( xnew , y1 ) ;
path . lineTo ( xnew , y2 ) ;
path . lineTo ( xnew + brace_fraction * bracewidth , y2 ) ;
painter . drawPath ( path ) ;
} else if ( openbrace = = " | " ) {
QPainterPath path ;
double y1 = y + ( coverallHeight - cbaselineHeight ) ;
double y2 = y - cbaselineHeight ;
QLineF l ( xnew + brace_fraction * bracewidth , y1 , xnew + brace_fraction * bracewidth , y2 ) ;
if ( l . length ( ) > 0 ) painter . drawLine ( l ) ;
painter . drawPath ( path ) ;
} else if ( openbrace = = " # " | | openbrace = = " || " ) {
QPainterPath path ;
double y1 = y + ( coverallHeight - cbaselineHeight ) ;
double y2 = y - cbaselineHeight ;
QLineF l ( xnew + brace_fraction * bracewidth , y1 , xnew + brace_fraction * bracewidth , y2 ) ;
if ( l . length ( ) > 0 ) painter . drawLine ( l ) ;
l = QLineF ( xnew + brace_fraction * bracewidth - 1.5 * lw , y1 , xnew + brace_fraction * bracewidth - 1.5 * lw , y2 ) ;
if ( l . length ( ) > 0 ) painter . drawLine ( l ) ;
} else if ( openbrace = = " < " ) {
QPainterPath path ;
double y1 = y + ( coverallHeight - cbaselineHeight ) ;
double y2 = y - cbaselineHeight ;
path . moveTo ( xnew + brace_fraction * bracewidth , y1 ) ;
path . lineTo ( xnew , ( y2 + y1 ) / 2.0 ) ;
path . lineTo ( xnew + brace_fraction * bracewidth , y2 ) ;
painter . drawPath ( path ) ;
}
painter . setPen ( pold ) ;
xnew = child - > draw ( painter , xnew + bracewidth / parent - > get_brace_shrink_factor ( ) - lw , y , currentEv ) + lw ;
if ( showRightBrace ) {
painter . setPen ( p ) ;
if ( closebrace = = " ) " ) {
QPainterPath path ;
double y1 = y + ( coverallHeight - cbaselineHeight ) ;
double y2 = y - cbaselineHeight ;
path . moveTo ( xnew + ( 1.0 - brace_fraction ) * bracewidth , y1 ) ;
path . cubicTo ( xnew + bracewidth , ( y1 + y2 ) / 2.0 + fabs ( y1 - y2 ) / 6.0 , xnew + bracewidth , ( y1 + y2 ) / 2.0 - fabs ( y1 - y2 ) / 6.0 , xnew + ( 1.0 - brace_fraction ) * bracewidth , y2 ) ;
painter . drawPath ( path ) ;
} else if ( closebrace = = " ] " ) {
QPainterPath path ;
double y1 = y + ( coverallHeight - cbaselineHeight ) ;
double y2 = y - cbaselineHeight ;
path . moveTo ( xnew + ( 1.0 - brace_fraction ) * bracewidth , y1 ) ;
path . lineTo ( xnew + bracewidth - lw / 2.0 , y1 ) ;
path . lineTo ( xnew + bracewidth - lw / 2.0 , y2 ) ;
path . lineTo ( xnew + ( 1.0 - brace_fraction ) * bracewidth , y2 ) ;
painter . drawPath ( path ) ;
} else if ( closebrace = = " } " ) {
QPainterPath path = makeHBracePath ( 0 , 0 , coverallHeight , bracewidth * brace_fraction ) ;
painter . save ( ) ;
painter . translate ( xnew + bracewidth * brace_fraction , y - cbaselineHeight + coverallHeight / 2.0 ) ;
painter . rotate ( 270 ) ;
painter . drawPath ( path ) ;
painter . restore ( ) ;
} else if ( closebrace = = " _ " ) {
QPainterPath path ;
double y1 = y + ( coverallHeight - cbaselineHeight ) ;
double y2 = y - cbaselineHeight ;
path . moveTo ( xnew + ( 1.0 - brace_fraction ) * bracewidth , y1 ) ;
path . lineTo ( xnew + bracewidth , y1 ) ;
path . lineTo ( xnew + bracewidth , y2 ) ;
painter . drawPath ( path ) ;
} else if ( closebrace = = " ~ " ) {
QPainterPath path ;
double y1 = y + ( coverallHeight - cbaselineHeight ) ;
double y2 = y - cbaselineHeight ;
path . moveTo ( xnew + bracewidth , y1 ) ;
path . lineTo ( xnew + bracewidth , y2 ) ;
path . lineTo ( xnew + ( 1.0 - brace_fraction ) * bracewidth , y2 ) ;
painter . drawPath ( path ) ;
} else if ( closebrace = = " | " ) {
QPainterPath path ;
double y1 = y + ( coverallHeight - cbaselineHeight ) ;
double y2 = y - cbaselineHeight ;
QLineF l ( xnew + ( 1.0 - brace_fraction ) * bracewidth , y1 , xnew + ( 1.0 - brace_fraction ) * bracewidth , y2 ) ;
if ( l . length ( ) > 0 ) painter . drawLine ( l ) ;
painter . drawPath ( path ) ;
} else if ( closebrace = = " # " | | closebrace = = " || " ) {
QPainterPath path ;
double y1 = y + ( coverallHeight - cbaselineHeight ) ;
double y2 = y - cbaselineHeight ;
QLineF l ( xnew + ( 1.0 - brace_fraction ) * bracewidth , y1 , xnew + ( 1.0 - brace_fraction ) * bracewidth , y2 ) ;
if ( l . length ( ) > 0 ) painter . drawLine ( l ) ;
l = QLineF ( xnew + ( 1.0 - brace_fraction ) * bracewidth + 1.5 * lw , y1 , xnew + ( 1.0 - brace_fraction ) * bracewidth + 1.5 * lw , y2 ) ;
if ( l . length ( ) > 0 ) painter . drawLine ( l ) ;
} else if ( closebrace = = " > " ) {
QPainterPath path ;
double y1 = y + ( coverallHeight - cbaselineHeight ) ;
double y2 = y - cbaselineHeight ;
path . moveTo ( xnew + ( 1.0 - brace_fraction ) * bracewidth , y1 ) ;
path . lineTo ( xnew + bracewidth , ( y2 + y1 ) / 2.0 ) ;
path . lineTo ( xnew + ( 1.0 - brace_fraction ) * bracewidth , y2 ) ;
painter . drawPath ( path ) ;
}
painter . setPen ( pold ) ;
}
//qDebug()<<" ==> "<<bc<<fm.boundingRect(bc).width();
return xnew + bracewidth / parent - > get_brace_shrink_factor ( ) - lw ;
}
bool JKQTmathText : : MTbraceNode : : toHtml ( QString & html , JKQTmathText : : MTenvironment currentEv , JKQTmathText : : MTenvironment defaultEv ) {
QString ob = openbrace ;
QString cb = closebrace ;
if ( ob = = " < " ) ob = " ⟨ " ;
else if ( ob = = " _ " ) ob = " &lfloor ; " ;
else if ( ob = = " ~ " ) ob = " &lceil ; " ;
else if ( ob = = " || " | | ob = = " # " ) ob = " || " ;
if ( cb = = " < " ) cb = " ⟩ " ;
else if ( cb = = " _ " ) cb = " &rfloor ; " ;
else if ( cb = = " ~ " ) cb = " &rceil ; " ;
else if ( cb = = " || " | | cb = = " # " ) cb = " || " ;
html = html + ob ;
bool ok = child - > toHtml ( html , currentEv , defaultEv ) ;
html = html + cb ;
return ok ;
}
void JKQTmathText : : MTbraceNode : : set_drawBoxes ( bool draw )
{
this - > drawBoxes = draw ;
child - > set_drawBoxes ( draw ) ;
}
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QString JKQTmathText : : MTbraceNode : : getTypeName ( ) const
{
return QLatin1String ( " MTbraceNode( " ) + openbrace + " " + closebrace + " ) " ;
}
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void JKQTmathText : : MTbraceNode : : getBraceWidth ( QPainter & /*painter*/ , JKQTmathText : : MTenvironment ev , double /*baselineHeight*/ , double overallHeight , double & bracewidth , double & braceheight )
{
/*QFont evf=ev.getFont(parent);
if ( ev . insideMath ) evf . setItalic ( false ) ;
ev . italic = false ;
while ( ev . fontSize < 10 * parent - > get_fontSize ( ) ) {
const QFontMetricsF fme ( evf , painter . device ( ) ) ;
if ( fme . ascent ( ) > overallHeight ) break ;
ev . fontSize + = 0.5 ;
evf . setPointSizeF ( ev . fontSize ) ;
}
ev . fontSize = ev . fontSize * parent - > get_brace_factor ( ) ;
evf . setPointSizeF ( ev . fontSize ) ;
QFontMetricsF fm ( evf , painter . device ( ) ) ;
QString bc = " _X " ;
bracewidth = fm . width ( " I " ) * parent - > get_brace_shrink_factor ( ) ;
braceheight = parent - > getTBR ( evf , bc , painter . device ( ) ) . height ( ) ; */
double lw = qMax ( 0.25 , ceil ( ev . fontSize / 12.0 ) ) ;
braceheight = overallHeight * parent - > get_brace_factor ( ) ;
bracewidth = 0.6 * pow ( braceheight , 0.6 ) ;
if ( openbrace = = " { " | | closebrace = = " } " ) bracewidth = qMax ( bracewidth , lw * 3.5 ) ;
}
JKQTmathText : : MTlistNode : : MTlistNode ( JKQTmathText * parent ) :
JKQTmathText : : MTnode ( parent )
{
nodes . clear ( ) ;
// these operations cause sub/sup script to be typeset over/under the operator, not right besides!
subsupOperations < < " sum " < < " prod " < < " coprod "
< < " bigcap " < < " bigcup " < < " bigvee " < < " bighat "
< < " int " < < " iint " < < " iiint " < < " oint " < < " oiint " < < " oiiint "
< < " max " < < " min " < < " argmax " < < " argmin " < < " sup " < < " inf "
< < " liminf " < < " limsup " < < " lim " < < " max " < < " min " ;
}
JKQTmathText : : MTlistNode : : ~ MTlistNode ( ) {
for ( int i = 0 ; i < nodes . size ( ) ; i + + ) {
delete nodes [ i ] ;
}
nodes . clear ( ) ;
}
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QString JKQTmathText : : MTlistNode : : getTypeName ( ) const
{
return " MTlistNode " ;
}
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void JKQTmathText : : MTlistNode : : getSizeInternal ( QPainter & painter , JKQTmathText : : MTenvironment currentEv , double & width , double & baselineHeight , double & overallHeight , double & strikeoutPos ) {
width = 0 ;
overallHeight = 0 ;
baselineHeight = 0 ;
strikeoutPos = 0 ;
QFontMetricsF fm ( currentEv . getFont ( parent ) ) ;
QRectF tbr = parent - > getTBR ( currentEv . getFont ( parent ) , " M " , painter . device ( ) ) ;
double xnew = 0 ;
bool wasBrace = false ;
for ( int i = 0 ; i < nodes . size ( ) ; i + + ) {
{
double w1 , oh , bh , sp ;
nodes [ i ] - > getSize ( painter , currentEv , w1 , bh , oh , sp ) ;
//qDebug()<<"i="<<i<<" width="<<width<<" baselineHeight="<<baselineHeight<<" overallHeight="<<overallHeight<<" strikeoutPos="<<strikeoutPos<<"\n"<<"### nodes["<<i<<"] = "<<nodes[i]->getTypeName()<< " w="<<w1<<" bh="<<bh<<" oh="<<oh<<" sp="<<sp;
}
bool doDraw = true ;
MTsymbolNode * smb = dynamic_cast < MTsymbolNode * > ( nodes [ i ] ) ;
// if we find a subscript/superscript node we check whether the next node is super/subscript
// if so, we typeset them at the same x-psotion, so sub/superscripts appear correctly
if ( dynamic_cast < MTsuperscriptNode * > ( nodes [ i ] ) ) {
if ( i + 1 < nodes . size ( ) ) { // is there one mor node behind?
if ( dynamic_cast < MTsubscriptNode * > ( nodes [ i + 1 ] ) ) { // is this subscript?
double w1 , w2 , oh , bh , sp ;
nodes [ i ] - > getSize ( painter , currentEv , w1 , bh , oh , sp ) ;
double shift = parent - > get_super_shift_factor ( ) * fm . xHeight ( ) + ( oh - bh ) ; //(overallHeight-baselineHeight)+(oh-bh);
if ( wasBrace ) {
shift = baselineHeight - parent - > get_super_shift_factor ( ) * tbr . height ( ) + ( oh - bh ) ;
}
//qDebug()<<"super_sub: super: "<<nodes[i]->getTypeName()<<" w1="<<w1<<" bh"<<bh<<" oh="<<oh<<" sp="<<sp;
if ( shift + bh > baselineHeight ) {
double lheight = overallHeight - baselineHeight ;
baselineHeight = shift + bh ;
overallHeight = baselineHeight + lheight ;
}
i + + ;
nodes [ i ] - > getSize ( painter , currentEv , w2 , bh , oh , sp ) ;
//qDebug()<<"super_sub: sub: "<<nodes[i]->getTypeName()<<" w2="<<w2<<" bh"<<bh<<" oh="<<oh<<" sp="<<sp;
if ( shift + oh - bh > overallHeight - baselineHeight ) {
overallHeight = baselineHeight + shift + ( oh - bh ) ;
}
doDraw = false ;
xnew + = qMax ( w1 + fm . width ( " " ) , w2 ) ;
//qDebug()<<"### super+sub";
//qDebug()<<"### subsupop: super+sub overallHeight="<<overallHeight<<" baselineHeight="<<baselineHeight;
}
}
} else if ( dynamic_cast < MTsubscriptNode * > ( nodes [ i ] ) ) {
if ( i + 1 < nodes . size ( ) ) { // is there one mor node behind?
if ( dynamic_cast < MTsuperscriptNode * > ( nodes [ i + 1 ] ) ) { // is this subscript?
double w1 , w2 , oh , bh , sp ;
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nodes [ i ] - > getSize ( painter , currentEv , w1 , bh , oh , sp ) ;
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double shift = parent - > get_super_shift_factor ( ) * fm . xHeight ( ) + ( oh - bh ) ; //(overallHeight-baselineHeight)+(oh-bh);
if ( wasBrace ) {
shift = baselineHeight - parent - > get_super_shift_factor ( ) * parent - > getTBR ( currentEv . getFont ( parent ) , " M " , painter . device ( ) ) . height ( ) + ( oh - bh ) ;
}
//qDebug()<<"sub_super: sub: "<<nodes[i]->getTypeName()<<" w1="<<w1<<" bh"<<bh<<" oh="<<oh<<" sp="<<sp;
if ( shift + oh - bh > overallHeight - baselineHeight ) {
overallHeight = baselineHeight + shift + ( oh - bh ) ;
}
i + + ;
nodes [ i ] - > getSize ( painter , currentEv , w2 , bh , oh , sp ) ;
//qDebug()<<"sub_super: super: "<<nodes[i]->getTypeName()<<" w2="<<w2<<" bh"<<bh<<" oh="<<oh<<" sp="<<sp;
if ( shift + bh > baselineHeight ) {
double lheight = overallHeight - baselineHeight ;
baselineHeight = shift + bh ;
overallHeight = baselineHeight + lheight ;
}
doDraw = false ;
xnew + = qMax ( w1 , w2 + fm . width ( " " ) ) ;
//qDebug()<<"### sub+super";
//qDebug()<<"### subsupop: sub+super1 overallHeight="<<overallHeight<<" baselineHeight="<<baselineHeight;
}
}
} else if ( smb ) {
QString s = smb - > get_symbolName ( ) ;
if ( subsupOperations . contains ( s ) ) {
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MTsubscriptNode * subn = nullptr ;
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if ( i + 1 < nodes . size ( ) ) subn = dynamic_cast < MTsubscriptNode * > ( nodes [ i + 1 ] ) ;
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MTsuperscriptNode * supn = nullptr ;
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if ( i + 2 < nodes . size ( ) ) supn = dynamic_cast < MTsuperscriptNode * > ( nodes [ i + 2 ] ) ;
//std::cout<<"symbol ='"<<s.toStdString()<<"' subn="<<subn<<" supn="<<supn<<"\n";
if ( subn & & supn ) { // is this subscript and superscript?
MTenvironment ev = currentEv ;
ev . fontSize = ev . fontSize * parent - > get_operatorsubsuper_size_factor ( ) ;
double w1 = 0 , w2 = 0 , w3 = 0 ;
double oh1 = 0 , oh2 = 0 , oh3 = 0 ;
double bh1 = 0 , bh2 = 0 , bh3 = 0 ;
double sp1 = 0 , sp2 = 0 , sp3 = 0 ;
nodes [ i ] - > getSize ( painter , currentEv , w1 , bh1 , oh1 , sp1 ) ;
//qDebug()<<"sub_super: node: "<<nodes[i]->getTypeName()<<" w1="<<w1<<" bh"<<bh1<<" oh="<<oh1<<" sp="<<sp1;
subn - > get_child ( ) - > getSize ( painter , ev , w2 , bh2 , oh2 , sp2 ) ;
//qDebug()<<"sub_super: node: "<<subn->getTypeName()<<" w2="<<w2<<" bh2"<<bh2<<" oh2="<<oh2<<" sp2="<<sp2;
supn - > get_child ( ) - > getSize ( painter , ev , w3 , bh3 , oh3 , sp3 ) ;
//qDebug()<<"sub_super: node: "<<supn->getTypeName()<<" w3="<<w3<<" bh3"<<bh3<<" oh3="<<oh3<<" sp3="<<sp3;
//double d1=oh1-bh1;
//double d2=oh2-bh2;
//double d3=oh3-bh3;
double w = qMax ( qMax ( w1 , w2 ) , w3 ) + fm . width ( " " ) ;
double oh = oh1 + oh2 + oh3 ;
double bh = bh1 + oh3 ;
if ( oh > overallHeight ) overallHeight = oh ;
if ( bh > baselineHeight ) { baselineHeight = bh ; strikeoutPos = sp1 ; }
if ( oh - bh > overallHeight - baselineHeight ) {
overallHeight = baselineHeight + oh - bh ;
}
i + + ;
i + + ;
doDraw = false ;
xnew + = w ;
//qDebug()<<"### subsupop: sub+super2 overallHeight="<<overallHeight<<" baselineHeight="<<baselineHeight;
/*} else if (subn && supn) { // is this subscript and superscript?
MTenvironment ev = currentEv ;
ev . fontSize = ev . fontSize * parent - > get_operatorsubsuper_size_factor ( ) ;
double w1 = 0 , w2 = 0 , w3 = 0 ;
double oh1 = 0 , oh2 = 0 , oh3 = 0 ;
double bh1 = 0 , bh2 = 0 , bh3 = 0 ;
double sp1 = 0 , sp2 = 0 , sp3 = 0 ;
nodes [ i ] - > getSize ( painter , currentEv , w1 , bh1 , oh1 , sp1 ) ;
supn - > get_child ( ) - > getSize ( painter , ev , w3 , bh3 , oh3 , sp3 ) ;
//double d1=oh1-bh1;
//double d2=oh2-bh2;
//double d3=oh3-bh3;
double w = qMax ( w1 , w3 ) + fm . width ( " " ) ;
double oh = oh1 + oh3 ;
double bh = bh1 + oh3 ;
if ( oh > overallHeight ) overallHeight = oh ;
if ( bh > baselineHeight ) { baselineHeight = bh ; strikeoutPos = sp1 ; }
if ( oh - bh > overallHeight - baselineHeight ) {
overallHeight = baselineHeight + oh - bh ;
}
i + + ;
i + + ;
doDraw = false ;
xnew + = w ;
//qDebug()<<"### subsupop: sub+super";*/
} else if ( subn ) { // is this subscript?
MTenvironment ev = currentEv ;
ev . fontSize = ev . fontSize * parent - > get_operatorsubsuper_size_factor ( ) ;
double w1 = 0 , w2 = 0 ;
double oh1 = 0 , oh2 = 0 ;
double bh1 = 0 , bh2 = 0 ;
double sp1 = 0 , sp2 = 0 ; //, sp3=0;
nodes [ i ] - > getSize ( painter , currentEv , w1 , bh1 , oh1 , sp1 ) ;
subn - > get_child ( ) - > getSize ( painter , ev , w2 , bh2 , oh2 , sp2 ) ;
//double d1=oh1-bh1;
//double d2=oh2-bh2;
double oh = oh1 + oh2 ;
double sh = oh1 - bh1 + oh2 * 1.1 ;
if ( oh > overallHeight ) overallHeight = oh ;
if ( bh1 > baselineHeight ) baselineHeight = bh1 ;
if ( sh > overallHeight - baselineHeight ) {
overallHeight = baselineHeight + sh ;
}
double w = qMax ( w1 , w2 ) + fm . width ( " " ) ;
i + + ;
doDraw = false ;
xnew + = w ;
//qDebug()<<"### subsupop: sub overallHeight="<<overallHeight<<" baselineHeight="<<baselineHeight;
}
}
}
if ( i < nodes . size ( ) & & doDraw ) {
double w , oh , bh , sp ;
nodes [ i ] - > getSize ( painter , currentEv , w , bh , oh , sp ) ;
double shift = 0 ;
if ( dynamic_cast < MTsuperscriptNode * > ( nodes [ i ] ) ) {
//QFontMetricsF fm(currentEv.getFont(parent));
//QRectF tbr=fm.tightBoundingRect("M");
shift = parent - > get_super_shift_factor ( ) * tbr . height ( ) + ( oh - bh ) ; //((overallHeight-baselineHeight)+(oh-bh));
if ( wasBrace ) {
shift = baselineHeight - parent - > get_super_shift_factor ( ) * tbr . height ( ) + ( oh - bh ) ;
}
//qDebug()<<"+++ super: bh="<<bh<<" oh="<<oh<<" shift="<<shift<<" wasBrace="<<wasBrace<<" baselineHeight="<<baselineHeight<<" overallHeight="<<overallHeight<<" fm.ascent="<<fm.ascent();
w + = fm . width ( " " ) ;
if ( shift + bh > baselineHeight ) {
double lheight = overallHeight - baselineHeight ;
baselineHeight = shift + bh ;
overallHeight = baselineHeight + lheight ;
}
//qDebug()<<"### super";
//qDebug()<<"### subsupop: super overallHeight="<<overallHeight<<" baselineHeight="<<baselineHeight;
} else if ( dynamic_cast < MTsubscriptNode * > ( nodes [ i ] ) ) {
//QFontMetricsF fm(currentEv.getFont(parent));
shift = 0 ; //parent->get_super_shift_factor()*fm.ascent();//((overallHeight-baselineHeight)+(oh-bh));
w + = fm . width ( " " ) ;
if ( shift + oh - bh > overallHeight - baselineHeight ) {
overallHeight = baselineHeight + shift + ( oh - bh ) ;
}
//qDebug()<<"### sub";
//qDebug()<<"### subsupop: sub overallHeight="<<overallHeight<<" baselineHeight="<<baselineHeight;
} else {
//qDebug()<<"### else: bh="<<bh<<" baselineHeight="<<baselineHeight<<" oh="<<oh<<" overallHeight="<<overallHeight;
if ( bh > baselineHeight ) {
overallHeight = overallHeight + bh - baselineHeight ;
baselineHeight = bh ;
strikeoutPos = sp ;
}
if ( baselineHeight + oh - bh > overallHeight ) {
overallHeight = baselineHeight + oh - bh ;
strikeoutPos = sp ;
}
//qDebug()<<"### subsupop: else overallHeight="<<overallHeight<<" baselineHeight="<<baselineHeight;
}
xnew + = w ;
//qDebug()<<i<<xnew;
//if (baselineHeight+oh+shift>overallHeight) overallHeight=baselineHeight+oh+shift;
/*if (oh+shift-bh>overallHeight-baselineHeight) {
overallHeight = baselineHeight + oh + shift - bh ;
} */
}
wasBrace = dynamic_cast < MTbraceNode * > ( nodes [ i ] ) ;
}
width = xnew ;
}
double JKQTmathText : : MTlistNode : : draw ( QPainter & painter , double x , double y , JKQTmathText : : MTenvironment currentEv ) {
doDrawBoxes ( painter , x , y , currentEv ) ;
double ynew = y ;
double xnew = x ;
double cwidth = 0 , cbaselineHeight = 0 , coverallHeight = 0 , cstrieoutPos = 0 ;
//qDebug()<<"listNode: "<<currentEv.fontSize;
QFontMetricsF fm ( currentEv . getFont ( parent ) ) ;
QRectF tbr = parent - > getTBR ( currentEv . getFont ( parent ) , " M " , painter . device ( ) ) ;
bool wasBrace = false ;
for ( int i = 0 ; i < nodes . size ( ) ; i + + ) {
bool doDraw = true ;
MTsymbolNode * smb = dynamic_cast < MTsymbolNode * > ( nodes [ i ] ) ;
// if we find a subscript/superscript node we check whether the next node is super/subscript
// if so, we typeset them at the same x-psotion, so sub/superscripts appear correctly
if ( dynamic_cast < MTsuperscriptNode * > ( nodes [ i ] ) ) {
double ccwidth = 0 , ccbaselineHeight = 0 , ccoverallHeight = 0 , ccstrieoutPos = 0 ;
nodes [ i ] - > getSize ( painter , currentEv , ccwidth , ccbaselineHeight , ccoverallHeight , ccstrieoutPos ) ;
if ( i + 1 < nodes . size ( ) ) { // is there one mor node behind?
if ( dynamic_cast < MTsubscriptNode * > ( nodes [ i + 1 ] ) ) { // is this subscript?
double shift = - parent - > get_super_shift_factor ( ) * tbr . height ( ) ;
if ( wasBrace ) {
shift = - cbaselineHeight + parent - > get_super_shift_factor ( ) * tbr . height ( ) ;
}
//painter.setPen(QPen("red"));
//painter.drawEllipse(xnew-4,ynew+shift-(ccoverallHeight-ccbaselineHeight)-4,8,8);
double xnew1 = nodes [ i ] - > draw ( painter , xnew , ynew + shift - ( ccoverallHeight - ccbaselineHeight ) , currentEv ) ;
i + + ;
//painter.setPen(QPen("magenta"));
//painter.drawEllipse(xnew-4,ynew-4,8,8);
double xnew2 = nodes [ i ] - > draw ( painter , xnew , ynew , currentEv ) ;
//i++;
xnew = qMax ( xnew1 , xnew2 ) ;
doDraw = false ;
}
}
} else if ( dynamic_cast < MTsubscriptNode * > ( nodes [ i ] ) ) {
if ( i + 1 < nodes . size ( ) ) { // is there one mor node behind?
if ( dynamic_cast < MTsuperscriptNode * > ( nodes [ i + 1 ] ) ) { // is this subscript?
//painter.setPen(QPen("magenta"));
//painter.drawEllipse(xnew-4,ynew-4,8,8);
double xnew1 = nodes [ i ] - > draw ( painter , xnew , ynew , currentEv ) ;
i + + ;
double ccwidth = 0 , ccbaselineHeight = 0 , ccoverallHeight = 0 , ccstrieoutPos = 0 ;
nodes [ i ] - > getSize ( painter , currentEv , ccwidth , ccbaselineHeight , ccoverallHeight , ccstrieoutPos ) ;
//QRectF tbr=fm.tightBoundingRect("M");
double shift = - parent - > get_super_shift_factor ( ) * tbr . height ( ) ;
if ( wasBrace ) {
shift = - cbaselineHeight + parent - > get_super_shift_factor ( ) * tbr . height ( ) ;
}
//painter.setPen(QPen("red"));
//painter.drawEllipse(xnew-4,ynew+shift-(ccoverallHeight-ccbaselineHeight)-4,8,8);
double xnew2 = nodes [ i ] - > draw ( painter , xnew , ynew + shift - ( ccoverallHeight - ccbaselineHeight ) , currentEv ) ;
//i++;
xnew = qMax ( xnew1 , xnew2 ) ;
doDraw = false ;
}
}
} else {
if ( smb ) {
QString s = smb - > get_symbolName ( ) ;
if ( subsupOperations . contains ( s ) ) {
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MTsubscriptNode * subn = nullptr ;
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if ( i + 1 < nodes . size ( ) ) subn = dynamic_cast < MTsubscriptNode * > ( nodes [ i + 1 ] ) ;
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MTsuperscriptNode * supn = nullptr ;
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if ( i + 2 < nodes . size ( ) ) supn = dynamic_cast < MTsuperscriptNode * > ( nodes [ i + 2 ] ) ;
//std::cout<<"symbol ='"<<s.toStdString()<<"' subn="<<subn<<" supn="<<supn<<"\n";
if ( subn & & supn ) { // is this subscript and superscript?
MTenvironment ev = currentEv ;
ev . fontSize = ev . fontSize * parent - > get_operatorsubsuper_size_factor ( ) ;
double w1 = 0 , w2 = 0 , w3 = 0 ;
double oh1 = 0 , oh2 = 0 , oh3 = 0 ;
double bh1 = 0 , bh2 = 0 , bh3 = 0 , sp ;
nodes [ i ] - > getSize ( painter , currentEv , w1 , bh1 , oh1 , sp ) ;
subn - > get_child ( ) - > getSize ( painter , ev , w2 , bh2 , oh2 , sp ) ;
supn - > get_child ( ) - > getSize ( painter , ev , w3 , bh3 , oh3 , sp ) ;
double d1 = oh1 - bh1 ;
//double d2=oh2-bh2;
double d3 = oh3 - bh3 ;
double w = qMax ( qMax ( w1 , w2 ) , w3 ) ;
//double xnew1=
double xn1 = nodes [ i ] - > draw ( painter , xnew + ( w - w1 ) / 2.0 , ynew , currentEv ) ;
i + + ;
//double xnew2=
double xn2 = subn - > get_child ( ) - > draw ( painter , xnew + ( w - w2 ) / 2.0 , ynew + bh2 + d1 , ev ) ;
i + + ;
//double xnew3=
double xn3 = supn - > get_child ( ) - > draw ( painter , xnew + ( w - w3 ) / 2.0 , ynew - bh1 - d3 - fm . xHeight ( ) / 4.0 , ev ) ;
doDraw = false ;
xnew = qMax ( qMax ( xn1 , xn2 ) , xn3 ) + fm . width ( " " ) ;
} else if ( subn ) { // is this subscript and not superscript?
MTenvironment ev = currentEv ;
ev . fontSize = ev . fontSize * parent - > get_operatorsubsuper_size_factor ( ) ;
double w1 = 0 , w2 = 0 ;
double oh1 = 0 , oh2 = 0 ;
double bh1 = 0 , bh2 = 0 , sp = 0 ;
nodes [ i ] - > getSize ( painter , currentEv , w1 , bh1 , oh1 , sp ) ;
subn - > get_child ( ) - > getSize ( painter , ev , w2 , bh2 , oh2 , sp ) ;
double d1 = oh1 - bh1 ;
//double d2=oh2-bh2;
double w = qMax ( w1 , w2 ) ;
//double xnew1=
double xn2 = nodes [ i ] - > draw ( painter , xnew + ( w - w1 ) / 2.0 , ynew , currentEv ) ;
i + + ;
//double xnew2=
double xn1 = subn - > get_child ( ) - > draw ( painter , xnew + ( w - w2 ) / 2.0 , ynew + bh2 + d1 , ev ) + fm . width ( " " ) ;
doDraw = false ;
//xnew+=w;
xnew = qMax ( xn1 , xn2 ) ;
} else if ( supn ) { // is this subscript and superscript?
MTenvironment ev = currentEv ;
ev . fontSize = ev . fontSize * parent - > get_operatorsubsuper_size_factor ( ) ;
double w1 = 0 , w3 = 0 ;
double oh1 = 0 , oh3 = 0 ;
double bh1 = 0 , bh3 = 0 , sp ;
nodes [ i ] - > getSize ( painter , currentEv , w1 , bh1 , oh1 , sp ) ;
supn - > get_child ( ) - > getSize ( painter , ev , w3 , bh3 , oh3 , sp ) ;
//double d1=oh1-bh1;
//double d2=oh2-bh2;
double d3 = oh3 - bh3 ;
double w = qMax ( w1 , w3 ) ;
//double xnew1=
double xn1 = nodes [ i ] - > draw ( painter , xnew + ( w - w1 ) / 2.0 , ynew , currentEv ) ;
i + + ;
//double xnew3=
double xn3 = supn - > get_child ( ) - > draw ( painter , xnew + ( w - w3 ) / 2.0 , ynew - bh1 - d3 - fm . xHeight ( ) / 4.0 , ev ) ;
doDraw = false ;
xnew = qMax ( xn1 , xn3 ) + fm . width ( " " ) ;
}
}
}
nodes [ i ] - > getSize ( painter , currentEv , cwidth , cbaselineHeight , coverallHeight , cstrieoutPos ) ;
}
if ( i < nodes . size ( ) & & doDraw ) {
if ( dynamic_cast < MTsuperscriptNode * > ( nodes [ i ] ) ) { // is this superscript?
double ccwidth = 0 , ccbaselineHeight = 0 , ccoverallHeight = 0 , ccstrieoutPos = 0 ;
nodes [ i ] - > getSize ( painter , currentEv , ccwidth , ccbaselineHeight , ccoverallHeight , ccstrieoutPos ) ;
//QRectF tbr=fm.tightBoundingRect("M");
double shift = - parent - > get_super_shift_factor ( ) * tbr . height ( ) ;
if ( wasBrace ) {
shift = - cbaselineHeight + parent - > get_super_shift_factor ( ) * tbr . height ( ) ;
}
//painter.setPen(QPen("red"));
//painter.drawEllipse(xnew-4,ynew+shift-(ccoverallHeight-ccbaselineHeight)-4,8,8);
xnew = nodes [ i ] - > draw ( painter , xnew , ynew + shift - ( ccoverallHeight - ccbaselineHeight ) , currentEv ) ;
} else {
xnew = nodes [ i ] - > draw ( painter , xnew , ynew , currentEv ) ;
}
}
wasBrace = dynamic_cast < MTbraceNode * > ( nodes [ i ] ) ;
}
return xnew ;
}
bool JKQTmathText : : MTlistNode : : toHtml ( QString & html , JKQTmathText : : MTenvironment currentEv , JKQTmathText : : MTenvironment defaultEv ) {
bool ok = true ;
for ( int i = 0 ; i < nodes . size ( ) ; i + + ) {
QString h = " " ;
ok = ok & & nodes [ i ] - > toHtml ( h , currentEv , defaultEv ) ;
html = html + h ;
}
return ok ;
}
void JKQTmathText : : MTlistNode : : set_drawBoxes ( bool draw )
{
this - > drawBoxes = draw ;
for ( int i = 0 ; i < nodes . size ( ) ; i + + ) {
nodes [ i ] - > set_drawBoxes ( draw ) ;
}
}
JKQTmathText : : MTsymbolNode : : MTsymbolNode ( JKQTmathText * parent , QString name , bool addWhitespace ) :
JKQTmathText : : MTnode ( parent )
{
double mathFontFactor = 1.8 ;
symbol = " " ;
symbolName = name ;
fontFactor = 1.0 ;
bold = 0 ;
italic = - 1 ;
yfactor = 0 ;
QString n = name ;
drawBar = false ;
font = MTSFdefault ;
heightIsAscent = false ;
exactAscent = false ;
extendWidthInMathmode = false ;
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////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////
// statische Lookup-Tabellen vorbereiten
////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////
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static QStringList extendWInMM ;
if ( extendWInMM . isEmpty ( ) ) {
extendWInMM < < " ll " < < " gg " < < " leq " < < " geq " < < " leftrightarrow " < < " leftarrow " < < " rightarrow " < < " to " < < " uparrow " < < " downarrow " < < " updownarrow " < < " Leftrightarrow "
< < " iff " < < " Leftarrow " < < " Rightarrow " < < " Uparrow " < < " Downarrow " < < " Updownarrow " < < " pm " < < " mp " < < " nexists " < < " ni " < < " notni " < < " circ " < < " sim " < < " emptyset " < < " odot " < < " ominus "
< < " subsetnot " < < " bot " < < " leftharpoonup " < < " rightharpoonup " < < " upharpoonleft " < < " downharpoonleft " < < " leftrightharpoon " < < " rightleftharpoon " < < " coprod " < < " leftharpoondown "
< < " rightharpoondown " < < " upharpoonright " < < " downharpoonright " < < " nwarrow " < < " nearrow " < < " searrow " < < " swarrow " < < " mapsto " < < " div " < < " multimap " < < " maporiginal " < < " mapimage "
< < " times " < < " propto " < < " bullet " < < " neq " < < " ne " < < " equiv " < < " approx " < < " otimes " < < " oplus " < < " oslash " < < " cap " < < " land " < < " cup " < < " lor " < < " supset " < < " supseteq " < < " supsetnot "
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< < " subset " < < " subseteq " < < " in " < < " notin " < < " cdot " < < " wedge " < < " vee " < < " cong " < < " bot " < < " mid " ;
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}
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if ( extendWInMM . contains ( n ) ) {
extendWidthInMathmode = true ;
}
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static QHash < QString , QString > simpleTranslations ;
if ( simpleTranslations . isEmpty ( ) ) {
simpleTranslations . insert ( " " , " " ) ;
simpleTranslations . insert ( " sin " , " sin " ) ;
simpleTranslations . insert ( " cos " , " cos " ) ;
simpleTranslations . insert ( " tan " , " tan " ) ;
simpleTranslations . insert ( " sinh " , " sinh " ) ;
simpleTranslations . insert ( " cosh " , " cosh " ) ;
simpleTranslations . insert ( " tanh " , " tanh " ) ;
simpleTranslations . insert ( " atan " , " atan " ) ;
simpleTranslations . insert ( " acos " , " acos " ) ;
simpleTranslations . insert ( " asin " , " asin " ) ;
simpleTranslations . insert ( " arcsin " , " arcsin " ) ;
simpleTranslations . insert ( " arccos " , " arccos " ) ;
simpleTranslations . insert ( " arctan " , " arctan " ) ;
simpleTranslations . insert ( " degree " , QLatin1String ( " \xB0 " ) ) ;
simpleTranslations . insert ( " ii " , " i " ) ;
simpleTranslations . insert ( " dd " , " d " ) ;
simpleTranslations . insert ( " exp " , " exp " ) ;
simpleTranslations . insert ( " log " , " log " ) ;
simpleTranslations . insert ( " ln " , " ln " ) ;
simpleTranslations . insert ( " ld " , " ld " ) ;
simpleTranslations . insert ( " lb " , " lb " ) ;
simpleTranslations . insert ( " argmin " , " argmin " ) ;
simpleTranslations . insert ( " argmax " , " argmax " ) ;
simpleTranslations . insert ( " max " , " max " ) ;
simpleTranslations . insert ( " min " , " min " ) ;
simpleTranslations . insert ( " sec " , " sec " ) ;
simpleTranslations . insert ( " gcd " , " gcd " ) ;
simpleTranslations . insert ( " hom " , " hom " ) ;
simpleTranslations . insert ( " ker " , " ker " ) ;
simpleTranslations . insert ( " dim " , " dim " ) ;
simpleTranslations . insert ( " cot " , " cot " ) ;
simpleTranslations . insert ( " arg " , " arg " ) ;
simpleTranslations . insert ( " det " , " det " ) ;
simpleTranslations . insert ( " deg " , " deg " ) ;
simpleTranslations . insert ( " Pr " , " Pr " ) ;
simpleTranslations . insert ( " coth " , " coth " ) ;
}
static QHash < QString , QString > simpleTranslations_heightIsAscent ;
if ( simpleTranslations_heightIsAscent . isEmpty ( ) ) {
simpleTranslations_heightIsAscent . insert ( " erf " , " erf " ) ;
simpleTranslations_heightIsAscent . insert ( " min " , " min " ) ;
simpleTranslations_heightIsAscent . insert ( " max " , " max " ) ;
simpleTranslations_heightIsAscent . insert ( " inf " , " inf " ) ;
simpleTranslations_heightIsAscent . insert ( " sup " , " sup " ) ;
simpleTranslations_heightIsAscent . insert ( " liminf " , " liminf " ) ;
simpleTranslations_heightIsAscent . insert ( " limsup " , " limsup " ) ;
simpleTranslations_heightIsAscent . insert ( " lim " , " lim " ) ;
}
static QHash < QString , QString > winSymbolGreek ;
if ( winSymbolGreek . isEmpty ( ) ) {
winSymbolGreek . insert ( " alpha " , " a " ) ;
winSymbolGreek . insert ( " beta " , " b " ) ;
winSymbolGreek . insert ( " gamma " , " g " ) ;
winSymbolGreek . insert ( " delta " , " d " ) ;
winSymbolGreek . insert ( " epsilon " , " e " ) ;
winSymbolGreek . insert ( " varepsilon " , " e " ) ;
winSymbolGreek . insert ( " zeta " , " z " ) ;
winSymbolGreek . insert ( " eta " , " h " ) ;
winSymbolGreek . insert ( " theta " , " q " ) ;
winSymbolGreek . insert ( " vartheta " , " J " ) ;
winSymbolGreek . insert ( " iota " , " i " ) ;
winSymbolGreek . insert ( " kappa " , " k " ) ;
winSymbolGreek . insert ( " lambda " , " l " ) ;
winSymbolGreek . insert ( " mu " , " m " ) ;
winSymbolGreek . insert ( " nu " , " n " ) ;
winSymbolGreek . insert ( " xi " , " x " ) ;
winSymbolGreek . insert ( " pi " , " p " ) ;
winSymbolGreek . insert ( " varpi " , " v " ) ;
winSymbolGreek . insert ( " rho " , " r " ) ;
winSymbolGreek . insert ( " sigma " , " s " ) ;
winSymbolGreek . insert ( " varsigma " , " V " ) ;
winSymbolGreek . insert ( " tau " , " t " ) ;
winSymbolGreek . insert ( " upsilon " , " u " ) ;
winSymbolGreek . insert ( " phi " , " f " ) ;
winSymbolGreek . insert ( " varphi " , " j " ) ;
winSymbolGreek . insert ( " chi " , " c " ) ;
winSymbolGreek . insert ( " psi " , " y " ) ;
winSymbolGreek . insert ( " omega " , " w " ) ;
winSymbolGreek . insert ( " Gamma " , " G " ) ;
winSymbolGreek . insert ( " Delta " , " D " ) ;
winSymbolGreek . insert ( " Theta " , " Q " ) ;
winSymbolGreek . insert ( " Lambda " , " L " ) ;
winSymbolGreek . insert ( " Omega " , " W " ) ;
winSymbolGreek . insert ( " Xi " , " X " ) ;
winSymbolGreek . insert ( " Pi " , " P " ) ;
winSymbolGreek . insert ( " Sigma " , " S " ) ;
winSymbolGreek . insert ( " Upsilon " , " " ) ;
winSymbolGreek . insert ( " Phi " , " F " ) ;
winSymbolGreek . insert ( " Psi " , " Y " ) ;
}
static QHash < QString , QString > winSymbolSymbol ;
if ( winSymbolSymbol . isEmpty ( ) ) {
winSymbolSymbol . insert ( " leftrightarrow " , QChar ( 0xAB ) ) ;
winSymbolSymbol . insert ( " leftarrow " , QChar ( 0xAC ) ) ;
winSymbolSymbol . insert ( " rightarrow " , QChar ( 0xAE ) ) ;
winSymbolSymbol . insert ( " to " , QChar ( 0xAE ) ) ;
winSymbolSymbol . insert ( " uparrow " , QChar ( 0xAD ) ) ;
winSymbolSymbol . insert ( " downarrow " , QChar ( 0xAF ) ) ;
winSymbolSymbol . insert ( " Leftrightarrow " , QChar ( 0xDB ) ) ;
winSymbolSymbol . insert ( " iff " , QChar ( 0xDB ) ) ;
winSymbolSymbol . insert ( " Leftarrow " , QChar ( 0xDC ) ) ;
winSymbolSymbol . insert ( " Rightarrow " , QChar ( 0xDE ) ) ;
winSymbolSymbol . insert ( " Uparrow " , QChar ( 0xDD ) ) ;
winSymbolSymbol . insert ( " Downarrow " , QChar ( 0xFF ) ) ;
winSymbolSymbol . insert ( " pm " , QChar ( 0xB1 ) ) ;
winSymbolSymbol . insert ( " leq " , QChar ( 0xA3 ) ) ;
winSymbolSymbol . insert ( " geq " , QChar ( 0xB3 ) ) ;
winSymbolSymbol . insert ( " times " , QChar ( 0xB4 ) ) ;
winSymbolSymbol . insert ( " propto " , QChar ( 0xB5 ) ) ;
winSymbolSymbol . insert ( " partial " , QChar ( 0xB6 ) ) ;
winSymbolSymbol . insert ( " bullet " , QChar ( 0xB7 ) ) ;
winSymbolSymbol . insert ( " neq " , QChar ( 0xB9 ) ) ;
winSymbolSymbol . insert ( " ne " , QChar ( 0xB9 ) ) ;
winSymbolSymbol . insert ( " equiv " , QChar ( 0xBA ) ) ;
winSymbolSymbol . insert ( " approx " , QChar ( 0xBB ) ) ;
winSymbolSymbol . insert ( " ellipsis " , QChar ( 0xBC ) ) ;
winSymbolSymbol . insert ( " Im " , QChar ( 0xC1 ) ) ;
winSymbolSymbol . insert ( " Re " , QChar ( 0xC2 ) ) ;
winSymbolSymbol . insert ( " otimes " , QChar ( 0xC4 ) ) ;
winSymbolSymbol . insert ( " oplus " , QChar ( 0xC5 ) ) ;
winSymbolSymbol . insert ( " oslash " , QChar ( 0xC6 ) ) ;
winSymbolSymbol . insert ( " cap " , QChar ( 0xC7 ) ) ;
winSymbolSymbol . insert ( " land " , QChar ( 0xC7 ) ) ;
winSymbolSymbol . insert ( " cup " , QChar ( 0xC8 ) ) ;
winSymbolSymbol . insert ( " lor " , QChar ( 0xC8 ) ) ;
winSymbolSymbol . insert ( " supset " , QChar ( 0xC9 ) ) ;
winSymbolSymbol . insert ( " supseteq " , QChar ( 0xCA ) ) ;
winSymbolSymbol . insert ( " supsetnot " , QChar ( 0xCB ) ) ;
winSymbolSymbol . insert ( " subset " , QChar ( 0xCC ) ) ;
winSymbolSymbol . insert ( " subseteq " , QChar ( 0xCD ) ) ;
winSymbolSymbol . insert ( " in " , QChar ( 0xCE ) ) ;
winSymbolSymbol . insert ( " notin " , QChar ( 0xCF ) ) ;
winSymbolSymbol . insert ( " angle " , QChar ( 0xD0 ) ) ;
winSymbolSymbol . insert ( " nabla " , QChar ( 0xD1 ) ) ;
winSymbolSymbol . insert ( " copyright " , QChar ( 0xD3 ) ) ;
winSymbolSymbol . insert ( " registered " , QChar ( 0xD2 ) ) ;
winSymbolSymbol . insert ( " trademark " , QChar ( 0xD4 ) ) ;
winSymbolSymbol . insert ( " cdot " , QChar ( 0xD7 ) ) ;
winSymbolSymbol . insert ( " neg " , QChar ( 0xD8 ) ) ;
winSymbolSymbol . insert ( " wedge " , QChar ( 0xD9 ) ) ;
winSymbolSymbol . insert ( " vee " , QChar ( 0xDA ) ) ;
winSymbolSymbol . insert ( " diamond " , QChar ( 0xE0 ) ) ;
winSymbolSymbol . insert ( " langle " , QChar ( 0xE1 ) ) ;
winSymbolSymbol . insert ( " rangle " , QChar ( 0xF1 ) ) ;
winSymbolSymbol . insert ( " forall " , QChar ( 0x22 ) ) ;
winSymbolSymbol . insert ( " exists " , QChar ( 0x24 ) ) ;
winSymbolSymbol . insert ( " cong " , QChar ( 0x40 ) ) ;
winSymbolSymbol . insert ( " bot " , QChar ( 0x5E ) ) ;
winSymbolSymbol . insert ( " ll " , " << " ) ;
winSymbolSymbol . insert ( " gg " , " >> " ) ;
winSymbolSymbol . insert ( " Alef " , QChar ( 0xC0 ) ) ;
winSymbolSymbol . insert ( " alef " , QChar ( 0xC0 ) ) ;
winSymbolSymbol . insert ( " tilde " , " ~ " ) ;
winSymbolSymbol . insert ( " emptyset " , QChar ( 0xC6 ) ) ;
winSymbolSymbol . insert ( " varnothing " , QChar ( 0xC6 ) ) ;
winSymbolSymbol . insert ( " lceil " , QChar ( 0xE9 ) ) ;
winSymbolSymbol . insert ( " rceil " , QChar ( 0xF9 ) ) ;
winSymbolSymbol . insert ( " lfloor " , QChar ( 0xEB ) ) ;
winSymbolSymbol . insert ( " rfloor " , QChar ( 0xFB ) ) ;
winSymbolSymbol . insert ( " subsetnot " , QChar ( 0xCB ) ) ;
winSymbolSymbol . insert ( " DC " , " = " ) ;
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winSymbolSymbol . insert ( " mid " , " | " ) ;
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winSymbolSymbol . insert ( " cdots " , QString ( 3 , QChar ( 0xD7 ) ) ) ;
winSymbolSymbol . insert ( " dots " , QChar ( 0xDC ) ) ;
winSymbolSymbol . insert ( " ldots " , QChar ( 0xDC ) ) ;
winSymbolSymbol . insert ( " cent " , " c " ) ;
}
static QHash < QString , QString > unicodeGreek ;
if ( unicodeGreek . isEmpty ( ) ) {
unicodeGreek . insert ( " alpha " , QChar ( 0x3B1 ) ) ;
unicodeGreek . insert ( " beta " , QChar ( 0x3B2 ) ) ;
unicodeGreek . insert ( " gamma " , QChar ( 0x3B3 ) ) ;
unicodeGreek . insert ( " delta " , QChar ( 0x3B4 ) ) ;
unicodeGreek . insert ( " epsilon " , QChar ( 0x3B5 ) ) ;
unicodeGreek . insert ( " varepsilon " , QChar ( 0x3B5 ) ) ;
unicodeGreek . insert ( " zeta " , QChar ( 0x3B6 ) ) ;
unicodeGreek . insert ( " eta " , QChar ( 0x3B7 ) ) ;
unicodeGreek . insert ( " theta " , QChar ( 0x3B8 ) ) ;
unicodeGreek . insert ( " vartheta " , QChar ( 0x3D1 ) ) ;
unicodeGreek . insert ( " iota " , QChar ( 0x3B9 ) ) ;
unicodeGreek . insert ( " kappa " , QChar ( 0x3BA ) ) ;
unicodeGreek . insert ( " lambda " , QChar ( 0x3BB ) ) ;
unicodeGreek . insert ( " mu " , QChar ( 0x3BC ) ) ;
unicodeGreek . insert ( " nu " , QChar ( 0x3BD ) ) ;
unicodeGreek . insert ( " xi " , QChar ( 0x3BE ) ) ;
unicodeGreek . insert ( " pi " , QChar ( 0x3C0 ) ) ;
unicodeGreek . insert ( " varpi " , QChar ( 0x3D6 ) ) ;
unicodeGreek . insert ( " rho " , QChar ( 0x3C1 ) ) ;
unicodeGreek . insert ( " varrho " , QChar ( 0x3F1 ) ) ;
unicodeGreek . insert ( " sigma " , QChar ( 0x3C3 ) ) ;
unicodeGreek . insert ( " varsigma " , QChar ( 0x3C2 ) ) ;
unicodeGreek . insert ( " tau " , QChar ( 0x3C4 ) ) ;
unicodeGreek . insert ( " upsilon " , QChar ( 0x3C5 ) ) ;
unicodeGreek . insert ( " phi " , QChar ( 0x3D5 ) ) ;
unicodeGreek . insert ( " varphi " , QChar ( 0x3C6 ) ) ;
unicodeGreek . insert ( " chi " , QChar ( 0x3C7 ) ) ;
unicodeGreek . insert ( " psi " , QChar ( 0x3C8 ) ) ;
unicodeGreek . insert ( " omega " , QChar ( 0x3C9 ) ) ;
unicodeGreek . insert ( " Omega " , QChar ( 0x3A9 ) ) ;
unicodeGreek . insert ( " Gamma " , QChar ( 0x393 ) ) ;
unicodeGreek . insert ( " Delta " , QChar ( 0x394 ) ) ;
unicodeGreek . insert ( " Theta " , QChar ( 0x398 ) ) ;
unicodeGreek . insert ( " Lambda " , QChar ( 0x39B ) ) ;
unicodeGreek . insert ( " Xi " , QChar ( 0x39E ) ) ;
unicodeGreek . insert ( " Pi " , QChar ( 0x3A0 ) ) ;
unicodeGreek . insert ( " Sigma " , QChar ( 0x3A3 ) ) ;
unicodeGreek . insert ( " Upsilon " , QChar ( 0x3A5 ) ) ;
unicodeGreek . insert ( " Phi " , QChar ( 0x3A6 ) ) ;
unicodeGreek . insert ( " Psi " , QChar ( 0x3A8 ) ) ;
}
static QHash < QString , QString > unicodeSymbol ;
if ( unicodeSymbol . isEmpty ( ) ) {
unicodeSymbol . insert ( " leftrightarrow " , QChar ( 0x2194 ) ) ;
unicodeSymbol . insert ( " leftarrow " , QChar ( 0x2190 ) ) ;
unicodeSymbol . insert ( " rightarrow " , QChar ( 0x2192 ) ) ;
unicodeSymbol . insert ( " to " , QChar ( 0x2192 ) ) ;
unicodeSymbol . insert ( " uparrow " , QChar ( 0x2191 ) ) ;
unicodeSymbol . insert ( " downarrow " , QChar ( 0x2193 ) ) ;
unicodeSymbol . insert ( " updownarrow " , QChar ( 0x2195 ) ) ;
unicodeSymbol . insert ( " Leftrightarrow " , QChar ( 0x21D4 ) ) ;
unicodeSymbol . insert ( " iff " , QChar ( 0x21D4 ) ) ;
unicodeSymbol . insert ( " Leftarrow " , QChar ( 0x21D0 ) ) ;
unicodeSymbol . insert ( " Rightarrow " , QChar ( 0x21D2 ) ) ;
unicodeSymbol . insert ( " Uparrow " , QChar ( 0x21D1 ) ) ;
unicodeSymbol . insert ( " Downarrow " , QChar ( 0x21D3 ) ) ;
unicodeSymbol . insert ( " Updownarrow " , QChar ( 0x21D5 ) ) ;
unicodeSymbol . insert ( " pm " , QChar ( 0x00B1 ) ) ;
unicodeSymbol . insert ( " mp " , QChar ( 0x2213 ) ) ;
unicodeSymbol . insert ( " leq " , QChar ( 0x2264 ) ) ;
unicodeSymbol . insert ( " geq " , QChar ( 0x2265 ) ) ;
unicodeSymbol . insert ( " ll " , QChar ( 0x226A ) ) ;
unicodeSymbol . insert ( " gg " , QChar ( 0x226B ) ) ;
unicodeSymbol . insert ( " hbar " , QChar ( 0x210F ) ) ;
unicodeSymbol . insert ( " euro " , QChar ( 0x20AC ) ) ;
unicodeSymbol . insert ( " Angstrom " , QChar ( 0x212B ) ) ;
unicodeSymbol . insert ( " Alef " , QChar ( 0x2135 ) ) ;
unicodeSymbol . insert ( " Bet " , QChar ( 0x2136 ) ) ;
unicodeSymbol . insert ( " Gimel " , QChar ( 0x2137 ) ) ;
unicodeSymbol . insert ( " Dalet " , QChar ( 0x2138 ) ) ;
unicodeSymbol . insert ( " alef " , QChar ( 0x2135 ) ) ;
unicodeSymbol . insert ( " bet " , QChar ( 0x2136 ) ) ;
unicodeSymbol . insert ( " gimel " , QChar ( 0x2137 ) ) ;
unicodeSymbol . insert ( " dalet " , QChar ( 0x2138 ) ) ;
unicodeSymbol . insert ( " nexists " , QChar ( 0x2204 ) ) ;
unicodeSymbol . insert ( " ni " , QChar ( 0x220B ) ) ;
unicodeSymbol . insert ( " notni " , QChar ( 0x220C ) ) ;
unicodeSymbol . insert ( " circ " , QChar ( 0x2218 ) ) ;
unicodeSymbol . insert ( " tilde " , QChar ( 0x223C ) ) ;
unicodeSymbol . insert ( " emptyset " , QChar ( 0x2300 ) ) ;
unicodeSymbol . insert ( " varnothing " , QChar ( 0x2300 ) ) ;
unicodeSymbol . insert ( " odot " , QChar ( 0x2299 ) ) ;
unicodeSymbol . insert ( " ominus " , QChar ( 0x2296 ) ) ;
unicodeSymbol . insert ( " lceil " , QChar ( 0x2308 ) ) ;
unicodeSymbol . insert ( " rceil " , QChar ( 0x2309 ) ) ;
unicodeSymbol . insert ( " lfloor " , QChar ( 0x230A ) ) ;
unicodeSymbol . insert ( " rfloor " , QChar ( 0x230B ) ) ;
unicodeSymbol . insert ( " subsetnot " , QChar ( 0x2284 ) ) ;
unicodeSymbol . insert ( " DC " , QChar ( 0x2393 ) ) ;
unicodeSymbol . insert ( " bot " , QChar ( 0x22A4 ) ) ;
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unicodeSymbol . insert ( " mid " , QChar ( 0xFF5C ) ) ;
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unicodeSymbol . insert ( " cdots " , QString ( QChar ( 0x00B7 ) ) + QString ( QChar ( 0x00B7 ) ) + QString ( QChar ( 0x00B7 ) ) ) ;
unicodeSymbol . insert ( " vdots " , QChar ( 0x22EE ) ) ;
unicodeSymbol . insert ( " iddots " , QChar ( 0x22F0 ) ) ;
unicodeSymbol . insert ( " ddots " , QChar ( 0x22F1 ) ) ;
unicodeSymbol . insert ( " dots " , " ... " ) ;
unicodeSymbol . insert ( " ldots " , " ... " ) ;
unicodeSymbol . insert ( " perthousand " , QChar ( 0x2030 ) ) ;
unicodeSymbol . insert ( " leftharpoonup " , QChar ( 0x21BC ) ) ;
unicodeSymbol . insert ( " rightharpoonup " , QChar ( 0x21C0 ) ) ;
unicodeSymbol . insert ( " upharpoonleft " , QChar ( 0x21BF ) ) ;
unicodeSymbol . insert ( " downharpoonleft " , QChar ( 0x21C3 ) ) ;
unicodeSymbol . insert ( " leftrightharpoon " , QChar ( 0x21CB ) ) ;
unicodeSymbol . insert ( " rightleftharpoon " , QChar ( 0x21CC ) ) ;
unicodeSymbol . insert ( " leftharpoondown " , QChar ( 0x21BD ) ) ;
unicodeSymbol . insert ( " rightharpoondown " , QChar ( 0x21C1 ) ) ;
unicodeSymbol . insert ( " upharpoonright " , QChar ( 0x21BE ) ) ;
unicodeSymbol . insert ( " downharpoonright " , QChar ( 0x21C2 ) ) ;
unicodeSymbol . insert ( " nwarrow " , QChar ( 0x2196 ) ) ;
unicodeSymbol . insert ( " nearrow " , QChar ( 0x2197 ) ) ;
unicodeSymbol . insert ( " searrow " , QChar ( 0x2198 ) ) ;
unicodeSymbol . insert ( " swarrow " , QChar ( 0x2199 ) ) ;
unicodeSymbol . insert ( " mapsto " , QChar ( 0x21A6 ) ) ;
unicodeSymbol . insert ( " cent " , QChar ( 0x00A2 ) ) ;
unicodeSymbol . insert ( " pound " , QChar ( 0x00A3 ) ) ;
unicodeSymbol . insert ( " yen " , QChar ( 0x00A5 ) ) ;
unicodeSymbol . insert ( " div " , QChar ( 0x00F7 ) ) ;
unicodeSymbol . insert ( " multimap " , QChar ( 0x22B8 ) ) ;
unicodeSymbol . insert ( " maporiginal " , QChar ( 0x22B6 ) ) ;
unicodeSymbol . insert ( " mapimage " , QChar ( 0x22B7 ) ) ;
unicodeSymbol . insert ( " benzene " , QChar ( 0x232C ) ) ;
unicodeSymbol . insert ( " times " , QChar ( 0x2A2F ) ) ;
unicodeSymbol . insert ( " propto " , QChar ( 0x221D ) ) ;
unicodeSymbol . insert ( " partial " , QChar ( 0x2202 ) ) ;
unicodeSymbol . insert ( " bullet " , QChar ( 0x2219 ) ) ;
unicodeSymbol . insert ( " neq " , QChar ( 0x2260 ) ) ;
unicodeSymbol . insert ( " ne " , QChar ( 0x2260 ) ) ;
unicodeSymbol . insert ( " equiv " , QChar ( 0x2261 ) ) ;
unicodeSymbol . insert ( " approx " , QChar ( 0x2245 ) ) ;
unicodeSymbol . insert ( " ellipsis " , QChar ( 0x2026 ) ) ;
unicodeSymbol . insert ( " Im " , QChar ( 0x2111 ) ) ;
unicodeSymbol . insert ( " Re " , QChar ( 0x211C ) ) ;
unicodeSymbol . insert ( " otimes " , QChar ( 0x2297 ) ) ;
unicodeSymbol . insert ( " oplus " , QChar ( 0x2295 ) ) ;
unicodeSymbol . insert ( " oslash " , QChar ( 0x2298 ) ) ;
unicodeSymbol . insert ( " cap " , QChar ( 0x2229 ) ) ;
unicodeSymbol . insert ( " land " , QChar ( 0x2229 ) ) ;
unicodeSymbol . insert ( " cup " , QChar ( 0x222A ) ) ;
unicodeSymbol . insert ( " lor " , QChar ( 0x222A ) ) ;
unicodeSymbol . insert ( " supset " , QChar ( 0x2283 ) ) ;
unicodeSymbol . insert ( " supseteq " , QChar ( 0x2286 ) ) ;
unicodeSymbol . insert ( " supsetnot " , QChar ( 0x2285 ) ) ;
unicodeSymbol . insert ( " subset " , QChar ( 0x2282 ) ) ;
unicodeSymbol . insert ( " subseteq " , QChar ( 0x2286 ) ) ;
unicodeSymbol . insert ( " in " , QChar ( 0x2208 ) ) ;
unicodeSymbol . insert ( " notin " , QChar ( 0x2209 ) ) ;
unicodeSymbol . insert ( " angle " , QChar ( 0x2221 ) ) ;
unicodeSymbol . insert ( " nabla " , QChar ( 0x2207 ) ) ;
unicodeSymbol . insert ( " copyright " , QChar ( 0x00A9 ) ) ;
unicodeSymbol . insert ( " registered " , QChar ( 0x00AE ) ) ;
unicodeSymbol . insert ( " trademark " , QChar ( 0x2122 ) ) ;
unicodeSymbol . insert ( " cdot " , QChar ( 0x00B7 ) ) ;
unicodeSymbol . insert ( " neg " , QChar ( 0x00AC ) ) ;
unicodeSymbol . insert ( " wedge " , QChar ( 0x2227 ) ) ;
unicodeSymbol . insert ( " vee " , QChar ( 0x2228 ) ) ;
unicodeSymbol . insert ( " diamond " , QChar ( 0xE0 ) ) ;
unicodeSymbol . insert ( " langle " , QChar ( 0x2329 ) ) ;
unicodeSymbol . insert ( " rangle " , QChar ( 0x232A ) ) ;
unicodeSymbol . insert ( " infty " , QChar ( 0x221E ) ) ;
unicodeSymbol . insert ( " forall " , QChar ( 0x2200 ) ) ;
unicodeSymbol . insert ( " exists " , QChar ( 0x2203 ) ) ;
unicodeSymbol . insert ( " cong " , QChar ( 0x2245 ) ) ;
unicodeSymbol . insert ( " bot " , QChar ( 0x22A5 ) ) ;
}
static QHash < QString , QString > latexSimpleSymbol ;
if ( latexSimpleSymbol . isEmpty ( ) ) {
latexSimpleSymbol . insert ( " _ " , " _ " ) ;
latexSimpleSymbol . insert ( " } " , " } " ) ;
latexSimpleSymbol . insert ( " { " , " { " ) ;
latexSimpleSymbol . insert ( " $ " , " $ " ) ;
latexSimpleSymbol . insert ( " % " , " % " ) ;
latexSimpleSymbol . insert ( " & " , " & " ) ;
latexSimpleSymbol . insert ( " # " , " # " ) ;
latexSimpleSymbol . insert ( " ast " , " * " ) ;
latexSimpleSymbol . insert ( " glq " , QChar ( 0x27 ) ) ;
latexSimpleSymbol . insert ( " grq " , QChar ( 0x60 ) ) ;
latexSimpleSymbol . insert ( " glqq " , QChar ( 0x5C ) ) ;
latexSimpleSymbol . insert ( " grqq " , " \" " ) ;
}
static QHash < QString , QString > latexGreek ;
if ( latexGreek . isEmpty ( ) ) {
latexGreek . insert ( " alpha " , QChar ( 0xAE ) ) ;
latexGreek . insert ( " beta " , QChar ( 0xAF ) ) ;
latexGreek . insert ( " gamma " , QChar ( 0xB0 ) ) ;
latexGreek . insert ( " delta " , QChar ( 0xB1 ) ) ;
latexGreek . insert ( " epsilon " , QChar ( 0x22 ) ) ;
latexGreek . insert ( " varepsilon " , QChar ( 0xB2 ) ) ;
latexGreek . insert ( " zeta " , QChar ( 0xB3 ) ) ;
latexGreek . insert ( " eta " , QChar ( 0xB4 ) ) ;
latexGreek . insert ( " theta " , QChar ( 0xB5 ) ) ;
latexGreek . insert ( " vartheta " , QChar ( 0x23 ) ) ;
latexGreek . insert ( " iota " , QChar ( 0xB6 ) ) ;
latexGreek . insert ( " kappa " , QChar ( 0xB7 ) ) ;
latexGreek . insert ( " lambda " , QChar ( 0xB8 ) ) ;
latexGreek . insert ( " mu " , QChar ( 0xB9 ) ) ;
latexGreek . insert ( " nu " , QChar ( 0xBA ) ) ;
latexGreek . insert ( " xi " , QChar ( 0xBB ) ) ;
latexGreek . insert ( " pi " , QChar ( 0xBC ) ) ;
latexGreek . insert ( " varpi " , QChar ( 0x24 ) ) ;
latexGreek . insert ( " rho " , QChar ( 0xBD ) ) ;
latexGreek . insert ( " varrho " , QChar ( 0x25 ) ) ;
latexGreek . insert ( " sigma " , QChar ( 0xBE ) ) ;
latexGreek . insert ( " varsigma " , QChar ( 0x26 ) ) ;
latexGreek . insert ( " tau " , QChar ( 0xBF ) ) ;
latexGreek . insert ( " upsilon " , QChar ( 0xC0 ) ) ;
latexGreek . insert ( " phi " , QChar ( 0xC1 ) ) ;
latexGreek . insert ( " varphi " , QChar ( 0x27 ) ) ;
latexGreek . insert ( " chi " , QChar ( 0xC2 ) ) ;
latexGreek . insert ( " psi " , QChar ( 0xC3 ) ) ;
latexGreek . insert ( " omega " , QChar ( 0x21 ) ) ;
latexGreek . insert ( " Gamma " , QChar ( 0xA1 ) ) ;
latexGreek . insert ( " Delta " , QChar ( 0xA2 ) ) ;
latexGreek . insert ( " Theta " , QChar ( 0xA3 ) ) ;
latexGreek . insert ( " Lambda " , QChar ( 0xA4 ) ) ;
latexGreek . insert ( " Xi " , QChar ( 0xA5 ) ) ;
latexGreek . insert ( " Pi " , QChar ( 0xA6 ) ) ;
latexGreek . insert ( " Sigma " , QChar ( 0xA7 ) ) ;
latexGreek . insert ( " Upsilon " , QChar ( 0xA8 ) ) ;
latexGreek . insert ( " Phi " , QChar ( 0xA9 ) ) ;
latexGreek . insert ( " Psi " , QChar ( 0xAA ) ) ;
latexGreek . insert ( " leftharpoonup " , QChar ( 0x28 ) ) ;
latexGreek . insert ( " rightharpoonup " , QChar ( 0x2A ) ) ;
latexGreek . insert ( " leftharpoondown " , QChar ( 0x29 ) ) ;
latexGreek . insert ( " rightharpoondown " , QChar ( 0x2B ) ) ;
latexGreek . insert ( " neg " , QChar ( 0xAC ) ) ;
latexGreek . insert ( " star " , QChar ( 0x3F ) ) ;
}
static QHash < QString , QString > latexSymbol ;
if ( latexSymbol . isEmpty ( ) ) {
latexSymbol . insert ( " leftrightarrow " , QChar ( 0x24 ) ) ;
latexSymbol . insert ( " leftarrow " , QChar ( 0xc3 ) ) ;
latexSymbol . insert ( " rightarrow " , QChar ( 0x21 ) ) ;
latexSymbol . insert ( " to " , QChar ( 0x21 ) ) ;
latexSymbol . insert ( " uparrow " , QChar ( 0x22 ) ) ;
latexSymbol . insert ( " downarrow " , QChar ( 0x23 ) ) ;
latexSymbol . insert ( " updownarrow " , QChar ( 0x6c ) ) ;
latexSymbol . insert ( " Leftrightarrow " , QChar ( 0x2c ) ) ;
latexSymbol . insert ( " iff " , QChar ( 0x2c ) ) ;
latexSymbol . insert ( " Leftarrow " , QChar ( 0x28 ) ) ;
latexSymbol . insert ( " Rightarrow " , QChar ( 0x29 ) ) ;
latexSymbol . insert ( " Uparrow " , QChar ( 0x2a ) ) ;
latexSymbol . insert ( " Downarrow " , QChar ( 0x2b ) ) ;
latexSymbol . insert ( " Updownarrow " , QChar ( 0x6d ) ) ;
latexSymbol . insert ( " pm " , QChar ( 0xa7 ) ) ;
latexSymbol . insert ( " mp " , QChar ( 0xa8 ) ) ;
latexSymbol . insert ( " leq " , QChar ( 0xb7 ) ) ;
latexSymbol . insert ( " geq " , QChar ( 0xb8 ) ) ;
latexSymbol . insert ( " ll " , QChar ( 0xbf ) ) ;
latexSymbol . insert ( " gg " , QChar ( 0xc0 ) ) ;
latexSymbol . insert ( " Alef " , QChar ( 0x40 ) ) ;
latexSymbol . insert ( " alef " , QChar ( 0x40 ) ) ;
latexSymbol . insert ( " ni " , QChar ( 0x33 ) ) ;
latexSymbol . insert ( " circ " , QChar ( 0xb1 ) ) ;
latexSymbol . insert ( " tilde " , QChar ( 0xbb ) ) ;
latexSymbol . insert ( " emptyset " , QChar ( 0x3b ) ) ;
latexSymbol . insert ( " odot " , QChar ( 0xaf ) ) ;
latexSymbol . insert ( " ominus " , QChar ( 0xaa ) ) ;
latexSymbol . insert ( " odiv " , QChar ( 0xae ) ) ;
latexSymbol . insert ( " oplus " , QChar ( 0xa9 ) ) ;
latexSymbol . insert ( " lceil " , QChar ( 0x64 ) ) ;
latexSymbol . insert ( " rceil " , QChar ( 0x65 ) ) ;
latexSymbol . insert ( " lfloor " , QChar ( 0x62 ) ) ;
latexSymbol . insert ( " rfloor " , QChar ( 0x63 ) ) ;
latexSymbol . insert ( " bot " , QChar ( 0x3f ) ) ;
latexSymbol . insert ( " cdots " , QString ( 3 , QChar ( 0xA2 ) ) ) ;
latexSymbol . insert ( " dots " , " ... " ) ;
latexSymbol . insert ( " nwarrow " , QChar ( 0x2d ) ) ;
latexSymbol . insert ( " nearrow " , QChar ( 0x25 ) ) ;
latexSymbol . insert ( " searrow " , QChar ( 0x26 ) ) ;
latexSymbol . insert ( " swarrow " , QChar ( 0x2e ) ) ;
latexSymbol . insert ( " div " , QChar ( 0xa5 ) ) ;
latexSymbol . insert ( " times " , QChar ( 0xa3 ) ) ;
latexSymbol . insert ( " propto " , QChar ( 0x2f ) ) ;
latexSymbol . insert ( " bullet " , QChar ( 0x2b ) ) ;
latexSymbol . insert ( " equiv " , QChar ( 0xb4 ) ) ;
latexSymbol . insert ( " approx " , QChar ( 0xbc ) ) ;
latexSymbol . insert ( " ellipsis " , " ... " ) ;
latexSymbol . insert ( " Im " , QChar ( 0x3D ) ) ;
latexSymbol . insert ( " Re " , QChar ( 0x3C ) ) ;
latexSymbol . insert ( " oplus " , QChar ( 0xa9 ) ) ;
latexSymbol . insert ( " oslash " , QChar ( 0xae ) ) ;
latexSymbol . insert ( " cap " , QChar ( 0x5c ) ) ;
latexSymbol . insert ( " cup " , QChar ( 0x5b ) ) ;
latexSymbol . insert ( " land " , QChar ( 0x5c ) ) ;
latexSymbol . insert ( " lor " , QChar ( 0x5b ) ) ;
latexSymbol . insert ( " supset " , QChar ( 0xbe ) ) ;
latexSymbol . insert ( " supseteq " , QChar ( 0xb6 ) ) ;
latexSymbol . insert ( " subset " , QChar ( 0xbd ) ) ;
latexSymbol . insert ( " subseteq " , QChar ( 0xb5 ) ) ;
latexSymbol . insert ( " in " , QChar ( 0x32 ) ) ;
latexSymbol . insert ( " nabla " , QChar ( 0x35 ) ) ;
latexSymbol . insert ( " cdot " , QChar ( 0xa2 ) ) ;
latexSymbol . insert ( " wedge " , QChar ( 0x5e ) ) ;
latexSymbol . insert ( " vee " , QChar ( 0x5f ) ) ;
latexSymbol . insert ( " diamond " , QChar ( 0xE0 ) ) ;
latexSymbol . insert ( " langle " , QChar ( 0x68 ) ) ;
latexSymbol . insert ( " rangle " , QChar ( 0x69 ) ) ;
latexSymbol . insert ( " infty " , QChar ( 0x31 ) ) ;
latexSymbol . insert ( " forall " , QChar ( 0x38 ) ) ;
latexSymbol . insert ( " exists " , QChar ( 0x39 ) ) ;
latexSymbol . insert ( " cong " , QChar ( 0xbb ) ) ;
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latexSymbol . insert ( " mid " , " | " ) ;
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}
////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////
////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////
QHash < QString , QString > : : iterator itsimple = simpleTranslations . find ( n ) ;
if ( itsimple ! = simpleTranslations . end ( ) ) {
symbol = itsimple . value ( ) ;
} else {
QHash < QString , QString > : : iterator itsimplehia = simpleTranslations_heightIsAscent . find ( n ) ;
if ( itsimplehia ! = simpleTranslations_heightIsAscent . end ( ) ) {
symbol = itsimplehia . value ( ) ;
heightIsAscent = true ;
} else {
if ( parent - > get_fontEncoding ( ) = = MTFEwinSymbol ) {
// first we start with greek characters
font = MTSFgreek ;
italic = - 1 ;
QHash < QString , QString > : : iterator itgreek = winSymbolGreek . find ( n ) ;
if ( itgreek ! = winSymbolGreek . end ( ) ) {
symbol = itgreek . value ( ) ;
} else if ( n = = " sum " ) { symbol = " S " ; fontFactor = mathFontFactor ; heightIsAscent = true ; exactAscent = true ; }
else if ( n = = " prod " ) { symbol = " P " ; fontFactor = mathFontFactor ; heightIsAscent = true ; exactAscent = true ; }
else {
// now we set the symbols from the Symbol font
font = MTSFsymbol ;
QHash < QString , QString > : : iterator itsymbol = winSymbolSymbol . find ( n ) ;
if ( itsymbol ! = winSymbolSymbol . end ( ) ) {
symbol = itsymbol . value ( ) ;
} else if ( n = = " int " ) { symbol = QChar ( 0xF2 ) ; fontFactor = mathFontFactor ; yfactor = + 0.1 ; }
else if ( n = = " bbC " ) { symbol = " C " ; bold = + 1 ; italic = - 1 ; }
else if ( n = = " bbH " ) { symbol = " H " ; bold = + 1 ; italic = - 1 ; }
else if ( n = = " bbN " ) { symbol = " N " ; bold = + 1 ; italic = - 1 ; }
else if ( n = = " bbP " ) { symbol = " P " ; bold = + 1 ; italic = - 1 ; }
else if ( n = = " bbQ " ) { symbol = " Q " ; bold = + 1 ; italic = - 1 ; }
else if ( n = = " bbR " ) { symbol = " R " ; bold = + 1 ; italic = - 1 ; }
else if ( n = = " bbZ " ) { symbol = " Z " ; bold = + 1 ; italic = - 1 ; }
else if ( n = = " iint " ) { symbol = QString ( 2 , QChar ( 0xF2 ) ) ; fontFactor = mathFontFactor ; yfactor = + 0.1 ; }
else if ( n = = " iiint " ) { symbol = QString ( 3 , QChar ( 0xF2 ) ) ; fontFactor = mathFontFactor ; yfactor = + 0.1 ; }
else if ( n = = " bigcap " ) { symbol = QChar ( 0xC7 ) ; fontFactor = 2 ; }
else if ( n = = " bigcup " ) { symbol = QChar ( 0xC8 ) ; fontFactor = 2 ; }
else if ( n = = " bigvee " ) { symbol = QChar ( 0xDA ) ; fontFactor = 2 ; }
else if ( n = = " bighat " ) { symbol = QChar ( 0xD9 ) ; fontFactor = 2 ; }
else { // here are text mode symbols, i.e. bold and italic won't be touched
bold = - 1 ;
italic = - 1 ;
font = MTSFdefault ;
if ( n = = " _ " ) { symbol = " _ " ; bold = 0 ; italic = 0 ; }
else if ( n = = " } " ) { symbol = " } " ; }
else if ( n = = " { " ) { symbol = " { " ; }
else if ( n = = " hbar " ) { symbol = " h " ; bold = 0 ; italic = 0 ; drawBar = true ; }
else if ( n = = " euro " ) { symbol = " " ; bold = 0 ; italic = 0 ; }
else if ( n = = " cent " ) { symbol = QChar ( 0xA2 ) ; bold = 0 ; italic = 0 ; }
else if ( n = = " pound " ) { symbol = QChar ( 0xA3 ) ; bold = 0 ; italic = 0 ; }
else if ( n = = " yen " ) { symbol = QChar ( 0xA5 ) ; bold = 0 ; italic = 0 ; }
else if ( n = = " div " ) { symbol = QChar ( 0xF7 ) ; bold = 0 ; italic = 0 ; }
else if ( n = = " backslash " ) { symbol = " \\ " ; bold = 0 ; italic = 0 ; }
//else if (n=="|") { symbol="||"; bold=0; italic=0; }
else if ( n = = " $ " ) { symbol = " $ " ; bold = 0 ; italic = 0 ; }
else if ( n = = " % " ) { symbol = " % " ; bold = 0 ; italic = 0 ; }
else if ( n = = " & " ) { symbol = " & " ; bold = 0 ; italic = 0 ; }
else if ( n = = " # " ) { symbol = " # " ; bold = 0 ; italic = 0 ; }
else if ( n = = " ast " ) { symbol = " * " ; bold = 0 ; italic = 0 ; }
else if ( n = = " glq " ) { symbol = " ' " ; bold = 0 ; italic = 0 ; }
else if ( n = = " grq " ) { symbol = " ' " ; bold = 0 ; italic = 0 ; }
else if ( n = = " glqq " ) { symbol = " \" " ; bold = 0 ; italic = 0 ; }
else if ( n = = " grqq " ) { symbol = " \" " ; bold = 0 ; italic = 0 ; }
else if ( n = = " flq " ) { symbol = " < " ; bold = 0 ; italic = 0 ; }
else if ( n = = " frq " ) { symbol = " > " ; bold = 0 ; italic = 0 ; }
else if ( n = = " flqq " ) { symbol = " " ; bold = 0 ; italic = 0 ; }
else if ( n = = " frqq " ) { symbol = " " ; bold = 0 ; italic = 0 ; }
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}
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//else if (n=="") { symbol=QChar(); font=MTSFdefault; }
//else if (n=="") symbol=QChar(0x);
}
}
else if ( parent - > get_fontEncoding ( ) = = MTFEunicode ) { // use UNICODE encoding for special characters
// first we start with greek characters
font = MTSFdefault ; //MTSFgreek;
//std::cout<<"encoding unicode\n";
QHash < QString , QString > : : iterator itgreek = unicodeGreek . find ( n ) ;
if ( itgreek ! = unicodeGreek . end ( ) ) {
symbol = itgreek . value ( ) ;
} else {
// now we set the symbols from the Symbol font
font = MTSFsymbol ;
QHash < QString , QString > : : iterator itsymbol = unicodeSymbol . find ( n ) ;
if ( itsymbol ! = unicodeSymbol . end ( ) ) {
symbol = itsymbol . value ( ) ;
} if ( n = = " sum " ) { symbol = QChar ( 0x2211 ) ; heightIsAscent = true ; exactAscent = true ; }
else if ( n = = " prod " ) { symbol = QChar ( 0x220F ) ; heightIsAscent = true ; exactAscent = true ; }
else if ( n = = " bbC " ) { symbol = QChar ( 0x2102 ) ; italic = - 1 ; }
else if ( n = = " bbH " ) { symbol = QChar ( 0x210D ) ; italic = - 1 ; }
else if ( n = = " bbN " ) { symbol = QChar ( 0x2115 ) ; italic = - 1 ; }
else if ( n = = " bbP " ) { symbol = QChar ( 0x2119 ) ; italic = - 1 ; }
else if ( n = = " bbQ " ) { symbol = QChar ( 0x211A ) ; italic = - 1 ; }
else if ( n = = " bbR " ) { symbol = QChar ( 0x211D ) ; italic = - 1 ; }
else if ( n = = " bbZ " ) { symbol = QChar ( 0x2124 ) ; italic = - 1 ; }
else if ( n = = " iint " ) { symbol = QChar ( 0x222C ) ; fontFactor = mathFontFactor ; /*yfactor=+0.1;;*/ heightIsAscent = true ; exactAscent = true ; }
else if ( n = = " iiint " ) { symbol = QChar ( 0x222D ) ; fontFactor = mathFontFactor ; /*yfactor=+0.1;;*/ heightIsAscent = true ; exactAscent = true ; }
else if ( n = = " oint " ) { symbol = QChar ( 0x222E ) ; fontFactor = mathFontFactor ; /*yfactor=+0.1;;*/ heightIsAscent = true ; exactAscent = true ; }
else if ( n = = " oiint " ) { symbol = QChar ( 0x222F ) ; fontFactor = mathFontFactor ; /*yfactor=+0.1;;*/ heightIsAscent = true ; exactAscent = true ; }
else if ( n = = " oiiint " ) { symbol = QChar ( 0x2230 ) ; fontFactor = mathFontFactor ; /*yfactor=+0.1;;*/ heightIsAscent = true ; exactAscent = true ; }
else if ( n = = " coprod " ) { symbol = QChar ( 0x2210 ) ; heightIsAscent = true ; exactAscent = true ; }
else if ( n = = " bigcap " ) { symbol = QChar ( 0x22C2 ) ; heightIsAscent = true ; exactAscent = true ; ; heightIsAscent = true ; exactAscent = true ; }
else if ( n = = " bigcup " ) { symbol = QChar ( 0x22C3 ) ; heightIsAscent = true ; exactAscent = true ; ; heightIsAscent = true ; exactAscent = true ; }
else if ( n = = " bigvee " ) { symbol = QChar ( 0x22C1 ) ; heightIsAscent = true ; exactAscent = true ; ; heightIsAscent = true ; exactAscent = true ; }
else if ( n = = " bighat " ) { symbol = QChar ( 0x22C0 ) ; heightIsAscent = true ; exactAscent = true ; ; heightIsAscent = true ; exactAscent = true ; }
else if ( n = = " int " ) { symbol = QChar ( 0x222B ) ; fontFactor = mathFontFactor ; /*yfactor=+0.1;;*/ heightIsAscent = true ; exactAscent = true ; }
else { // here are text mode symbols, i.e. bold and italic won't be touched
bold = - 1 ;
italic = - 1 ;
font = MTSFdefault ;
if ( n = = " _ " ) { symbol = " _ " ; }
else if ( n = = " } " ) { symbol = " } " ; }
else if ( n = = " { " ) { symbol = " { " ; }
else if ( n = = " backslash " ) { symbol = " \\ " ; bold = 0 ; italic = 0 ; }
//else if (n=="|") { symbol=QChar(0x2016); }
else if ( n = = " $ " ) { symbol = " $ " ; }
else if ( n = = " % " ) { symbol = " % " ; }
else if ( n = = " & " ) { symbol = " & " ; }
else if ( n = = " # " ) { symbol = " # " ; }
else if ( n = = " ast " ) { symbol = " * " ; }
else if ( n = = " glq " ) { symbol = QChar ( 0x2018 ) ; bold = 0 ; italic = 0 ; }
else if ( n = = " grq " ) { symbol = QChar ( 0x2019 ) ; bold = 0 ; italic = 0 ; }
else if ( n = = " glqq " ) { symbol = QChar ( 0x201C ) ; bold = 0 ; italic = 0 ; }
else if ( n = = " grqq " ) { symbol = QChar ( 0x201D ) ; bold = 0 ; italic = 0 ; }
else if ( n = = " flq " ) { symbol = QChar ( 0x2039 ) ; bold = 0 ; italic = 0 ; }
else if ( n = = " frq " ) { symbol = QChar ( 0x203A ) ; bold = 0 ; italic = 0 ; }
else if ( n = = " flqq " ) { symbol = " " ; bold = 0 ; italic = 0 ; }
else if ( n = = " frqq " ) { symbol = " " ; bold = 0 ; italic = 0 ; }
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}
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//else if (n=="") { symbol=QChar(); font=MTSFdefault; }
//else if (n=="") symbol=QChar(0x);
}
}
else if ( parent - > get_fontEncoding ( ) = = MTFElatex ) { // use UNICODE encoding for special characters
// first we start with greek characters
font = MTSFdefault ; //MTSFgreek;
//std::cout<<"encoding unicode\n";
QHash < QString , QString > : : iterator itssymbol = latexSimpleSymbol . find ( n ) ;
if ( itssymbol ! = latexSimpleSymbol . end ( ) ) {
symbol = itssymbol . value ( ) ;
} else if ( n = = " backslash " ) { symbol = " \\ " ; bold = 0 ; italic = 0 ; }
else {
font = MTSFgreek ;
QHash < QString , QString > : : iterator itgreek = latexGreek . find ( n ) ;
if ( itgreek ! = latexGreek . end ( ) ) {
symbol = itgreek . value ( ) ;
} else {
// now we set the symbols from the Symbol font
font = MTSFsymbol ;
QHash < QString , QString > : : iterator itsymbol = latexSymbol . find ( n ) ;
if ( itsymbol ! = latexSymbol . end ( ) ) {
symbol = itsymbol . value ( ) ;
} else if ( n = = " int " ) { symbol = QChar ( 0x73 ) ; fontFactor = mathFontFactor ; yfactor = + 0.1 ; }
else { // here are text mode symbols, i.e. bold and italic won't be touched
font = MTSFbraces ;
if ( n = = " bigcap " ) { symbol = QChar ( 0x5c ) ; heightIsAscent = true ; exactAscent = true ; }
else if ( n = = " bigcup " ) { symbol = QChar ( 0x5b ) ; heightIsAscent = true ; exactAscent = true ; }
else if ( n = = " bigvee " ) { symbol = QChar ( 0x5F ) ; heightIsAscent = true ; exactAscent = true ; }
else if ( n = = " bighat " ) { symbol = QChar ( 0x5E ) ; heightIsAscent = true ; exactAscent = true ; }
else if ( n = = " oint " ) { symbol = QChar ( 0x49 ) ; yfactor = + 0.1 ; }
else if ( n = = " coprod " ) { symbol = QChar ( 0x61 ) ; heightIsAscent = true ; exactAscent = true ; }
else if ( n = = " iint " ) { symbol = QString ( 2 , QChar ( 0x5A ) ) ; yfactor = + 0.1 ; }
else if ( n = = " iiint " ) { symbol = QString ( 3 , QChar ( 0x5A ) ) ; yfactor = + 0.1 ; }
else if ( n = = " sum " ) { symbol = QChar ( 0x58 ) ; heightIsAscent = true ; exactAscent = true ; }
else if ( n = = " prod " ) { symbol = QChar ( 0x59 ) ; heightIsAscent = true ; exactAscent = true ; }
}
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}
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}
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}
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}
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}
if ( addWhitespace ) symbol = symbol + " " ;
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static QSet < QString > extraSymbolName = {
" infty " ,
" | " , " " , " quad " , " ; " , " : " , " , " , " ! " ,
" longleftarrow " , " longrightarrow " ,
" Longleftarrow " , " Longrightarrow " ,
" longleftrightarrow " , " Longleftrightarrow "
} ;
if ( symbol . simplified ( ) . isEmpty ( ) & & ! extraSymbolName . contains ( n ) ) {
parent - > error_list . append ( tr ( " unknown symbol '%1' found! " ) . arg ( n ) ) ;
}
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//std::cout<<"symbol node '"<<symbolName.toStdString()<<"': symbol='"<<symbol.toStdString()<<"'\n";
}
JKQTmathText : : MTsymbolNode : : ~ MTsymbolNode ( ) {
}
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QString JKQTmathText : : MTsymbolNode : : getTypeName ( ) const
{
return QLatin1String ( " MTsymbolNode( " ) + symbolName + QLatin1String ( " ) " ) ;
}
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QFont JKQTmathText : : MTsymbolNode : : getFontName ( symbolFont f , QFont & fi ) {
QFont fr = fi ;
switch ( f ) {
case MTSFgreek : fr . setFamily ( parent - > get_fontGreek ( ) ) ; break ;
case MTSFsymbol : fr . setFamily ( parent - > get_fontSymbol ( ) ) ; break ;
case MTSFbraces : fr . setFamily ( parent - > get_fontBraces ( ) ) ; break ;
case MTSFintegrals : fr . setFamily ( parent - > get_fontIntegrals ( ) ) ; break ;
case MTSFcaligraphic : fr . setFamily ( parent - > get_fontCaligraphic ( ) ) ; break ;
case MTSFblackboard : fr . setFamily ( parent - > get_fontBlackboard ( ) ) ; break ;
default : break ;
}
return fr ;
}
void JKQTmathText : : MTsymbolNode : : getSizeInternal ( QPainter & painter , JKQTmathText : : MTenvironment currentEv , double & width , double & baselineHeight , double & overallHeight , double & strikeoutPos ) {
QFont f = currentEv . getFont ( parent ) ;
f = getFontName ( font , f ) ;
f . setPointSizeF ( f . pointSizeF ( ) * fontFactor ) ;
if ( italic < 0 ) f . setItalic ( false ) ;
if ( italic > 0 ) f . setItalic ( true ) ;
if ( bold < 0 ) f . setBold ( false ) ;
if ( bold > 0 ) f . setBold ( true ) ;
QFontMetricsF fm ( f , painter . device ( ) ) ;
QString symb = symbol ;
width = 0 ;
if ( currentEv . insideMath ) width = qMax ( parent - > getTBR ( f , symb , painter . device ( ) ) . width ( ) , parent - > getTBR ( f , " i " , painter . device ( ) ) . width ( ) ) ; //fm.width(symbol);
else width = fm . boundingRect ( symb ) . width ( ) ; //fm.width(symbol);
width = qMax ( fm . width ( " j " ) , width ) ;
if ( symb . isEmpty ( ) ) {
width = fm . width ( " a " ) ;
if ( symbolName = = " | " ) width = fm . width ( " 1 " ) * 0.8 ;
else if ( symbolName = = " infty " ) width = fm . width ( " M " ) ;
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else if ( symbolName = = " quad " ) width = parent - > getTBR ( f , " M " , painter . device ( ) ) . width ( ) ;
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else if ( symbolName = = " " ) width = parent - > getTBR ( f , " x " , painter . device ( ) ) . width ( ) ;
else if ( symbolName = = " ; " ) width = parent - > getTBR ( f , " x " , painter . device ( ) ) . width ( ) * 0.75 ;
else if ( symbolName = = " : " ) width = parent - > getTBR ( f , " x " , painter . device ( ) ) . width ( ) * 0.5 ;
else if ( symbolName = = " , " ) width = parent - > getTBR ( f , " x " , painter . device ( ) ) . width ( ) * 0.25 ;
else if ( symbolName = = " ! " ) width = - parent - > getTBR ( f , " x " , painter . device ( ) ) . width ( ) * 0.25 ;
else if ( symbolName = = " longleftarrow " ) { width = parent - > getTBR ( f , " X " , painter . device ( ) ) . width ( ) * 3.5 ; symb = " x " ; }
else if ( symbolName = = " longrightarrow " ) { width = parent - > getTBR ( f , " X " , painter . device ( ) ) . width ( ) * 3.5 ; symb = " x " ; }
else if ( symbolName = = " Longleftarrow " ) { width = parent - > getTBR ( f , " X " , painter . device ( ) ) . width ( ) * 3.5 ; symb = " x " ; }
else if ( symbolName = = " Longrightarrow " ) { width = parent - > getTBR ( f , " X " , painter . device ( ) ) . width ( ) * 3.5 ; symb = " x " ; }
else if ( symbolName = = " longleftrightarrow " ) { width = parent - > getTBR ( f , " X " , painter . device ( ) ) . width ( ) * 3.5 ; symb = " x " ; }
else if ( symbolName = = " Longleftrightarrow " ) { width = parent - > getTBR ( f , " X " , painter . device ( ) ) . width ( ) * 3.5 ; symb = " x " ; }
}
QRectF tbr = parent - > getTBR ( f , symb , painter . device ( ) ) ;
overallHeight = tbr . height ( ) ; // fm.height();
baselineHeight = tbr . height ( ) - tbr . bottom ( ) ;
if ( exactAscent ) {
//baselineHeight=fm.ascent()*0.8;
}
if ( heightIsAscent ) {
overallHeight = baselineHeight * 1.1 ;
}
if ( exactAscent & & heightIsAscent ) {
//qDebug()<<symbolName<<symbol<<tbr.top()<<tbr.bottom()<<tbr.height();
baselineHeight = tbr . height ( ) - tbr . bottom ( ) ; //fm.ascent()*0.8;
overallHeight = tbr . height ( ) ; //baselineHeight*1.1;
}
strikeoutPos = fm . strikeOutPos ( ) ;
if ( extendWidthInMathmode & & currentEv . insideMath ) width = width * parent - > get_mathoperator_width_factor ( ) ;
}
double JKQTmathText : : MTsymbolNode : : draw ( QPainter & painter , double x , double y , JKQTmathText : : MTenvironment currentEv ) {
doDrawBoxes ( painter , x , y , currentEv ) ;
double width = 0 ;
double baselineHeight = 0 ;
double overallHeight = 0 , strikeoutPos = 0 ;
getSize ( painter , currentEv , width , baselineHeight , overallHeight , strikeoutPos ) ;
QPen pold = painter . pen ( ) ;
QFont fold = painter . font ( ) ;
QFont f = currentEv . getFont ( parent ) ;
QFont f1 = f ;
f = getFontName ( font , f ) ;
f . setPointSizeF ( f . pointSizeF ( ) * fontFactor ) ;
if ( italic < 0 ) f . setItalic ( false ) ;
if ( italic > 0 ) f . setItalic ( true ) ;
if ( bold < 0 ) f . setBold ( false ) ;
if ( bold > 0 ) f . setBold ( true ) ;
QFontMetricsF fm ( f , painter . device ( ) ) ;
QFontMetricsF fm1 ( f1 , painter . device ( ) ) ;
painter . setFont ( f ) ;
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double shift = 0 ;
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if ( extendWidthInMathmode & & currentEv . insideMath ) {
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double origwidth = width / parent - > get_mathoperator_width_factor ( ) ;
shift = 0.5 * ( width - origwidth ) ;
//width=width*parent->get_mathoperator_width_factor();
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}
//std::cout<<"symbol '"<<symbolName.toStdString()<<"' = "<<std::hex<<symbol.at(0).digitValue()<<" in font '"<<f.family().toStdString()<<"' ("<<QFontInfo(f).family().toStdString()<<"): "<<fm.inFont(symbol.at(0))<<std::endl;
QPen p = painter . pen ( ) ;
p . setColor ( currentEv . color ) ;
p . setWidthF ( qMax ( JKQTMATHTEXT_ABS_MIN_LINEWIDTH , fm . lineWidth ( ) ) ) ;
p . setStyle ( Qt : : SolidLine ) ;
painter . setPen ( p ) ;
double xwi = fm . width ( " x " ) ;
if ( ! symbol . isEmpty ( ) ) {
// if the symbol has been recognized in the constructor: draw the symbol
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painter . drawText ( QPointF ( x + shift , y + yfactor * overallHeight ) , symbol ) ;
double xx = x + shift ;
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double yy = y - fm . xHeight ( ) - ( parent - > getTBR ( f , " M " , painter . device ( ) ) . height ( ) - fm . xHeight ( ) ) / 3.0 ;
QLineF l ( xx , yy , xx + xwi / 3.0 + ( ( currentEv . italic ) ? ( xwi / 3.0 ) : 0 ) , yy ) ;
if ( drawBar & & l . length ( ) > 0 ) painter . drawLine ( l ) ;
// try to draw some often used special symbols, by synthesizing them from
// standard characters in the current drawing font
} else if ( symbolName = = " infty " ) {
//std::cout<<"draw infty\n";
f1 . setItalic ( false ) ;
painter . setFont ( f1 ) ;
painter . save ( ) ;
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painter . translate ( x + shift + fm1 . width ( " 8 " ) / 3.0 , y - fm1 . xHeight ( ) ) ;
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painter . rotate ( 90 ) ;
painter . drawText ( QPointF ( 0 , 0 ) , " 8 " ) ;
painter . restore ( ) ;
} else if ( symbolName = = " | " ) {
//std::cout<<"draw infty\n";
f1 . setItalic ( false ) ;
painter . setFont ( f1 ) ;
painter . save ( ) ;
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painter . translate ( x + shift , y ) ;
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painter . drawText ( QPointF ( 0 , 0 ) , " | " ) ;
painter . translate ( fm1 . width ( " 8 " ) / 3.0 , 0 ) ;
painter . drawText ( QPointF ( 0 , 0 ) , " | " ) ;
painter . restore ( ) ;
// here are some spaces
} else if ( symbolName = = " " ) { // full space
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} else if ( symbolName = = " quad " ) { // 75% space
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} else if ( symbolName = = " ; " ) { // 75% space
} else if ( symbolName = = " : " ) { // 50% space
} else if ( symbolName = = " , " ) { // 25% space
} else if ( symbolName = = " ! " ) { // -25% space
} else if ( symbolName = = " longleftarrow " ) {
double width = parent - > getTBR ( f , " X " , painter . device ( ) ) . width ( ) * 3.0 ;
double dx = parent - > getTBR ( f , " X " , painter . device ( ) ) . width ( ) * 0.25 ;
double ypos = y - parent - > getTBR ( f , " x " , painter . device ( ) ) . height ( ) / 2.0 ;
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QPainterPath path = makeArrow ( x + shift + dx , ypos , width , parent - > getTBR ( f , " M " , painter . device ( ) ) . height ( ) * 0.5 , true , false ) ;
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painter . drawPath ( path ) ;
} else if ( symbolName = = " longrightarrow " ) {
double width = parent - > getTBR ( f , " X " , painter . device ( ) ) . width ( ) * 3.0 ;
double dx = parent - > getTBR ( f , " X " , painter . device ( ) ) . width ( ) * 0.25 ;
double ypos = y - parent - > getTBR ( f , " x " , painter . device ( ) ) . height ( ) / 2.0 ;
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QPainterPath path = makeArrow ( x + shift + dx , ypos , width , parent - > getTBR ( f , " M " , painter . device ( ) ) . height ( ) * 0.5 , false , true ) ;
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painter . drawPath ( path ) ;
} else if ( symbolName = = " Longleftarrow " ) {
double width = parent - > getTBR ( f , " X " , painter . device ( ) ) . width ( ) * 3.0 ;
double dx = parent - > getTBR ( f , " X " , painter . device ( ) ) . width ( ) * 0.25 ;
double ypos = y - parent - > getTBR ( f , " x " , painter . device ( ) ) . height ( ) / 2.0 ;
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QPainterPath path = makeDArrow ( x + shift + dx , ypos , width , parent - > getTBR ( f , " M " , painter . device ( ) ) . height ( ) * 0.5 , true , false ) ;
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painter . drawPath ( path ) ;
} else if ( symbolName = = " Longrightarrow " ) {
double width = parent - > getTBR ( f , " X " , painter . device ( ) ) . width ( ) * 3.0 ;
double dx = parent - > getTBR ( f , " X " , painter . device ( ) ) . width ( ) * 0.25 ;
double ypos = y - parent - > getTBR ( f , " x " , painter . device ( ) ) . height ( ) / 2.0 ;
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QPainterPath path = makeDArrow ( x + shift + dx , ypos , width , parent - > getTBR ( f , " M " , painter . device ( ) ) . height ( ) * 0.5 , false , true ) ;
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painter . drawPath ( path ) ;
} else if ( symbolName = = " longleftrightarrow " ) {
double width = parent - > getTBR ( f , " X " , painter . device ( ) ) . width ( ) * 3.0 ;
double dx = parent - > getTBR ( f , " X " , painter . device ( ) ) . width ( ) * 0.25 ;
double ypos = y - parent - > getTBR ( f , " x " , painter . device ( ) ) . height ( ) / 2.0 ;
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QPainterPath path = makeArrow ( x + shift + dx , ypos , width , parent - > getTBR ( f , " M " , painter . device ( ) ) . height ( ) * 0.5 , true , true ) ;
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painter . drawPath ( path ) ;
} else if ( symbolName = = " Longleftrightarrow " ) {
double width = parent - > getTBR ( f , " X " , painter . device ( ) ) . width ( ) * 3.0 ;
double dx = parent - > getTBR ( f , " X " , painter . device ( ) ) . width ( ) * 0.25 ;
double ypos = y - parent - > getTBR ( f , " x " , painter . device ( ) ) . height ( ) / 2.0 ;
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QPainterPath path = makeDArrow ( x + shift + dx , ypos , width , parent - > getTBR ( f , " M " , painter . device ( ) ) . height ( ) * 0.5 , true , true ) ;
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painter . drawPath ( path ) ;
} else { // draw a box to indicate an unavailable symbol
QRectF tbr = parent - > getTBR ( f , " M " , painter . device ( ) ) ;
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painter . drawRect ( QRectF ( x + shift , y - tbr . height ( ) , xwi , tbr . height ( ) * 0.8 ) ) ;
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}
painter . setPen ( pold ) ;
painter . setFont ( fold ) ;
return x + width ;
}
bool JKQTmathText : : MTsymbolNode : : toHtml ( QString & html , JKQTmathText : : MTenvironment currentEv , JKQTmathText : : MTenvironment defaultEv ) {
bool ok = true ;
QString s ;
JKQTmathText : : MTenvironment ev = currentEv ;
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static QMap < QString , QString > entitylut ;
if ( entitylut . isEmpty ( ) ) {
entitylut . insert ( " sin " , " sin " ) ;
entitylut . insert ( " cos " , " cos " ) ;
entitylut . insert ( " tan " , " tan " ) ;
entitylut . insert ( " sinh " , " sinh " ) ;
entitylut . insert ( " cosh " , " cosh " ) ;
entitylut . insert ( " tanh " , " tanh " ) ;
entitylut . insert ( " atan " , " atan " ) ;
entitylut . insert ( " acos " , " acos " ) ;
entitylut . insert ( " asin " , " asin " ) ;
entitylut . insert ( " arcsin " , " arcsin " ) ;
entitylut . insert ( " arccos " , " arccos " ) ;
entitylut . insert ( " arctan " , " arctan " ) ;
entitylut . insert ( " ii " , " i " ) ;
entitylut . insert ( " dd " , " d " ) ;
entitylut . insert ( " exp " , " exp " ) ;
entitylut . insert ( " log " , " log " ) ;
entitylut . insert ( " ln " , " ln " ) ;
entitylut . insert ( " ld " , " ld " ) ;
entitylut . insert ( " lb " , " lb " ) ;
entitylut . insert ( " erf " , " erf " ) ;
entitylut . insert ( " min " , " min " ) ;
entitylut . insert ( " max " , " max " ) ;
entitylut . insert ( " argmin " , " argmin " ) ;
entitylut . insert ( " argmax " , " argmax " ) ;
entitylut . insert ( " inf " , " inf " ) ;
entitylut . insert ( " sup " , " sup " ) ;
entitylut . insert ( " liminf " , " liminf " ) ;
entitylut . insert ( " limsup " , " limsup " ) ;
entitylut . insert ( " lim " , " lim " ) ;
entitylut . insert ( " max " , " max " ) ;
entitylut . insert ( " min " , " min " ) ;
entitylut . insert ( " sec " , " sec " ) ;
entitylut . insert ( " gcd " , " gcd " ) ;
entitylut . insert ( " hom " , " hom " ) ;
entitylut . insert ( " ker " , " ker " ) ;
entitylut . insert ( " dim " , " dim " ) ;
entitylut . insert ( " cot " , " cot " ) ;
entitylut . insert ( " arg " , " arg " ) ;
entitylut . insert ( " det " , " det " ) ;
entitylut . insert ( " deg " , " deg " ) ;
entitylut . insert ( " Pr " , " Pr " ) ;
entitylut . insert ( " coth " , " coth " ) ;
entitylut . insert ( " alpha " , " α " ) ;
entitylut . insert ( " beta " , " β " ) ;
entitylut . insert ( " gamma " , " γ " ) ;
entitylut . insert ( " delta " , " δ " ) ;
entitylut . insert ( " epsilon " , " ε " ) ;
entitylut . insert ( " varepsilon " , " ε " ) ;
entitylut . insert ( " zeta " , " ζ " ) ;
entitylut . insert ( " eta " , " η " ) ;
entitylut . insert ( " theta " , " θ " ) ;
entitylut . insert ( " vartheta " , " ϑ " ) ;
entitylut . insert ( " iota " , " ι " ) ;
entitylut . insert ( " kappa " , " κ " ) ;
entitylut . insert ( " lambda " , " λ " ) ;
entitylut . insert ( " mu " , " μ " ) ;
entitylut . insert ( " nu " , " ν " ) ;
entitylut . insert ( " xi " , " ξ " ) ;
entitylut . insert ( " pi " , " π " ) ;
entitylut . insert ( " varpi " , " ϖ " ) ;
entitylut . insert ( " rho " , " ρ " ) ;
entitylut . insert ( " sigma " , " σ " ) ;
entitylut . insert ( " varsigma " , " ς " ) ;
entitylut . insert ( " tau " , " τ " ) ;
entitylut . insert ( " upsilon " , " υ " ) ;
entitylut . insert ( " phi " , " φ " ) ;
entitylut . insert ( " varphi " , " φ " ) ;
entitylut . insert ( " chi " , " χ " ) ;
entitylut . insert ( " psi " , " ψ " ) ;
entitylut . insert ( " omega " , " ω " ) ;
entitylut . insert ( " Gamma " , " Γ " ) ;
entitylut . insert ( " Delta " , " Δ " ) ;
entitylut . insert ( " Theta " , " Θ " ) ;
entitylut . insert ( " Lambda " , " Λ " ) ;
entitylut . insert ( " Omega " , " Ω " ) ;
entitylut . insert ( " Xi " , " Ξ " ) ;
entitylut . insert ( " Pi " , " Π " ) ;
entitylut . insert ( " Sigma " , " Σ " ) ;
entitylut . insert ( " Upsilon " , " Υ " ) ;
entitylut . insert ( " Phi " , " Φ " ) ;
entitylut . insert ( " Psi " , " Ψ " ) ;
entitylut . insert ( " leftrightarrow " , " ↔ " ) ;
entitylut . insert ( " leftarrow " , " ← " ) ;
entitylut . insert ( " rightarrow " , " → " ) ;
entitylut . insert ( " to " , " → " ) ;
entitylut . insert ( " uparrow " , " ↑ " ) ;
entitylut . insert ( " downarrow " , " ↓ " ) ;
entitylut . insert ( " Leftrightarrow " , " ⇔ " ) ;
entitylut . insert ( " iff " , " ⇔ " ) ;
entitylut . insert ( " Leftarrow " , " ⇐ " ) ;
entitylut . insert ( " Rightarrow " , " ⇒ " ) ;
entitylut . insert ( " Uparrow " , " ⇑ " ) ;
entitylut . insert ( " Downarrow " , " ⇓ " ) ;
entitylut . insert ( " pm " , " ± " ) ;
entitylut . insert ( " leq " , " ≤ " ) ;
entitylut . insert ( " geq " , " ≥ " ) ;
entitylut . insert ( " times " , " × " ) ;
entitylut . insert ( " propto " , " ∝ " ) ;
entitylut . insert ( " partial " , " ∂ " ) ;
entitylut . insert ( " bullet " , " • " ) ;
entitylut . insert ( " neq " , " ≠ " ) ;
entitylut . insert ( " ne " , " ≠ " ) ;
entitylut . insert ( " equiv " , " ≡ " ) ;
entitylut . insert ( " approx " , " ≈ " ) ;
entitylut . insert ( " ellipsis " , " ... " ) ;
entitylut . insert ( " Im " , " ℑ " ) ;
entitylut . insert ( " Re " , " ℜ " ) ;
entitylut . insert ( " otimes " , " ⊗ " ) ;
entitylut . insert ( " oplus " , " ⊕ " ) ;
entitylut . insert ( " oslash " , " / " ) ;
entitylut . insert ( " cap " , " ∩ " ) ;
entitylut . insert ( " cup " , " ∪ " ) ;
entitylut . insert ( " land " , " ∩ " ) ;
entitylut . insert ( " lor " , " ∪ " ) ;
entitylut . insert ( " supset " , " ⊃ " ) ;
entitylut . insert ( " supseteq " , " ⊇ " ) ;
entitylut . insert ( " supsetnot " , " ⊅ " ) ;
entitylut . insert ( " subset " , " ⊂ " ) ;
entitylut . insert ( " subseteq " , " ⊆ " ) ;
entitylut . insert ( " in " , " ∈ " ) ;
entitylut . insert ( " notin " , " ∉ " ) ;
entitylut . insert ( " angle " , " ∠ " ) ;
entitylut . insert ( " nabla " , " ∇ " ) ;
entitylut . insert ( " copyright " , " © " ) ;
entitylut . insert ( " registered " , " ® " ) ;
entitylut . insert ( " trademark " , " ™ " ) ;
entitylut . insert ( " cdot " , " ⋅ " ) ;
entitylut . insert ( " neg " , " ¬ " ) ;
entitylut . insert ( " wedge " , " ∧ " ) ;
entitylut . insert ( " vee " , " ∨ " ) ;
entitylut . insert ( " diamond " , " ◊ " ) ;
entitylut . insert ( " langle " , " ⟨ " ) ;
entitylut . insert ( " rangle " , " ⟩ " ) ;
entitylut . insert ( " int " , " ∫ " ) ;
entitylut . insert ( " forall " , " ∀ " ) ;
entitylut . insert ( " exists " , " ∃ " ) ;
entitylut . insert ( " cong " , " ∼ " ) ;
entitylut . insert ( " bot " , " ⊥ " ) ;
entitylut . insert ( " ll " , " << " ) ;
entitylut . insert ( " gg " , " >> " ) ;
entitylut . insert ( " bbC " , " <b>C</b> " ) ;
entitylut . insert ( " bbH " , " <b>H</b> " ) ;
entitylut . insert ( " bbN " , " <b>N</b> " ) ;
entitylut . insert ( " bbP " , " <b>P</b> " ) ;
entitylut . insert ( " bbQ " , " <b>Q</b> " ) ;
entitylut . insert ( " bbR " , " <b>R</b> " ) ;
entitylut . insert ( " bbZ " , " <b>Z</b> " ) ;
entitylut . insert ( " Alef " , " ℵ " ) ;
entitylut . insert ( " alef " , " ℵ " ) ;
entitylut . insert ( " tilde " , " ~ " ) ;
entitylut . insert ( " iint " , " ∫∫ " ) ;
entitylut . insert ( " iiint " , " ∫∫∫ " ) ;
entitylut . insert ( " emptyset " , " ∅ " ) ;
entitylut . insert ( " varnothing " , " ∅ " ) ;
entitylut . insert ( " lceil " , " ⌈ " ) ;
entitylut . insert ( " rceil " , " ⌉ " ) ;
entitylut . insert ( " lfloor " , " ⌊ " ) ;
entitylut . insert ( " rfloor " , " ⌋ " ) ;
entitylut . insert ( " subsetnot " , " ⊄ " ) ;
entitylut . insert ( " DC " , " = " ) ;
entitylut . insert ( " cdots " , " ⋅⋅⋅ " ) ;
entitylut . insert ( " dots " , " ... " ) ;
entitylut . insert ( " cent " , " ¢ " ) ;
entitylut . insert ( " _ " , " _ " ) ;
entitylut . insert ( " } " , " } " ) ;
entitylut . insert ( " { " , " { " ) ;
entitylut . insert ( " hbar " , " ℏ " ) ;
entitylut . insert ( " euro " , " € " ) ;
entitylut . insert ( " pound " , " £ " ) ;
entitylut . insert ( " yen " , " ¥ " ) ;
entitylut . insert ( " div " , " ÷ " ) ;
entitylut . insert ( " backslash " , " \\ " ) ;
entitylut . insert ( " $ " , " $ " ) ;
entitylut . insert ( " % " , " % " ) ;
entitylut . insert ( " & " , " & " ) ;
entitylut . insert ( " # " , " # " ) ;
entitylut . insert ( " ast " , " * " ) ;
entitylut . insert ( " glq " , " ' " ) ;
entitylut . insert ( " grq " , " ' " ) ;
entitylut . insert ( " glqq " , " \" " ) ;
entitylut . insert ( " grqq " , " \" " ) ;
entitylut . insert ( " flq " , " < " ) ;
entitylut . insert ( " frq " , " > " ) ;
entitylut . insert ( " flqq " , " " ) ;
entitylut . insert ( " frqq " , " " ) ;
}
QMap < QString , QString > : : iterator itS = entitylut . find ( symbolName ) ;
if ( itS ! = entitylut . end ( ) ) { s = itS . value ( ) ; }
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else if ( symbolName = = " sum " ) { ev . fontSize * = 1.7 ; s = " ∑ " ; }
else if ( symbolName = = " prod " ) { ev . fontSize * = 1.7 ; s = " ∏ " ; }
else if ( symbolName = = " bigcap " ) { ev . fontSize * = 1.7 ; s = " ∩ " ; }
else if ( symbolName = = " bigcup " ) { ev . fontSize * = 1.7 ; s = " ∪ " ; }
else if ( symbolName = = " bigvee " ) { ev . fontSize * = 1.7 ; s = " ∨ " ; }
else if ( symbolName = = " bighat " ) { ev . fontSize * = 1.7 ; s = " ∧ " ; }
else ok = false ;
if ( ok ) html = html + ev . toHtmlStart ( defaultEv ) + s + ev . toHtmlAfter ( defaultEv ) ;
return ok ;
}
// --------------------------------------------------------------------------------------------------
// -- implementation of the JKQTmathText methods
// --------------------------------------------------------------------------------------------------
JKQTmathText : : JKQTmathText ( QObject * parent ) :
QObject ( parent )
{
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Q_INIT_RESOURCE ( xits ) ;
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QFontDatabase fontdb ;
QString serifFont = " Serif " ;
QString sansFont = " Sans " ;
QString symbolFont = " Symbol " ;
QString scriptFont = " Script " ;
QString typewriterFont = " typewriter " ;
QString decorativeFont = " decorative " ;
QStringList fonts = fontdb . families ( ) ;
//qDebug()<<"fonts:\n"<<fonts;
if ( fonts . contains ( " Times New Roman " ) ) {
serifFont = " Times New Roman " ;
} else if ( fonts . contains ( " Times " ) ) {
serifFont = " Times " ;
} else if ( fonts . contains ( " FreeSerif " ) ) {
serifFont = " FreeSerif " ;
}
if ( fonts . contains ( " Arial " ) ) {
sansFont = " Arial " ;
} else if ( fonts . contains ( " Helvetica " ) ) {
sansFont = " Helvetica " ;
} else if ( fonts . contains ( " FreeSans " ) ) {
sansFont = " FreeSans " ;
}
if ( fonts . contains ( " Symbol " ) ) {
symbolFont = " Symbol " ;
} else if ( fonts . contains ( " Standard Symbols L " ) ) {
symbolFont = " Standard Symbols L " ;
}
if ( fonts . contains ( " Courier " ) ) {
typewriterFont = " Courier " ;
} else if ( fonts . contains ( " Courier New " ) ) {
typewriterFont = " Courier New " ;
} else if ( fonts . contains ( " Courier Std " ) ) {
typewriterFont = " Courier Std " ;
} else if ( fonts . contains ( " FreeMono " ) ) {
typewriterFont = " FreeMono " ;
}
def_fontSize = fontSize = 10 ;
def_fontRoman = fontRoman = serifFont ;
def_fontSans = fontSans = sansFont ;
def_fontTypewriter = fontTypewriter = typewriterFont ;
def_fontScript = fontScript = scriptFont ;
def_fontGreek = fontGreek = symbolFont ;
def_fontSymbol = fontSymbol = symbolFont ;
def_fontCaligraphic = fontCaligraphic = decorativeFont ;
def_fontBlackboard = fontBlackboard = serifFont ;
def_fontMathRoman = fontMathRoman = serifFont ;
def_fontMathSans = fontMathSans = sansFont ;
def_fontBraces = fontBraces = fontMathRoman ;
def_fontIntegrals = fontIntegrals = fontMathRoman ;
def_fontEncoding = fontEncoding = MTFEwinSymbol ;
def_fontLatexPostfix = fontLatexPostfix = " 10 " ;
def_fontLatexPrefix = fontLatexPrefix = " jlm_ " ;
def_brace_factor = brace_factor = 1.04 ;
def_subsuper_size_factor = subsuper_size_factor = 0.7 ;
def_italic_correction_factor = italic_correction_factor = 0.4 ;
def_sub_shift_factor = sub_shift_factor = 0.6 ;
def_super_shift_factor = super_shift_factor = 0.5 ;
def_brace_shrink_factor = brace_shrink_factor = 0.6 ;
def_fontColor = fontColor = QColor ( " black " ) ;
def_useSTIXfonts = useSTIXfonts = false ;
def_useXITSfonts = useXITSfonts = false ;
def_useASANAfonts = useASANAfonts = false ;
def_frac_factor = frac_factor = 0.9 ;
def_frac_shift_factor = frac_shift_factor = 0.5 ;
def_underbrace_factor = underbrace_factor = 0.75 ;
def_underset_factor = underset_factor = 0.7 ;
def_decoration_height_factor = decoration_height_factor = 0.2 ;
def_brace_y_shift_factor = brace_y_shift_factor = 0.7 ; //-1;
def_operatorsubsuper_size_factor = operatorsubsuper_size_factor = 0.65 ;
def_mathoperator_width_factor = mathoperator_width_factor = 1.5 ;
def_expensiveRendering = expensiveRendering = true ;
useUnparsed = false ;
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parsedNode = nullptr ;
unparsedNode = nullptr ;
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currentToken = MTTnone ;
currentTokenName = " " ;
currentTokenID = 0 ;
parseString = " " ;
parsingMathEnvironment = false ;
}
JKQTmathText : : ~ JKQTmathText ( ) {
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if ( parsedNode ! = nullptr ) delete parsedNode ;
parsedNode = nullptr ;
if ( unparsedNode ! = nullptr ) delete unparsedNode ;
unparsedNode = nullptr ;
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}
void JKQTmathText : : loadSettings ( QSettings & settings , QString group ) {
fontSize = settings . value ( group + " font_size " , fontSize ) . toDouble ( ) ;
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fontColor = QColor ( settings . value ( group + " font_color " , JKQTP_QColor2String ( fontColor ) ) . toString ( ) ) ;
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fontRoman = settings . value ( group + " font_roman " , fontRoman ) . toString ( ) ;
fontSans = settings . value ( group + " font_sans " , fontSans ) . toString ( ) ;
fontTypewriter = settings . value ( group + " font_typewriter " , fontTypewriter ) . toString ( ) ;
fontScript = settings . value ( group + " font_script " , fontScript ) . toString ( ) ;
fontGreek = settings . value ( group + " font_greek " , fontGreek ) . toString ( ) ;
fontSymbol = settings . value ( group + " font_symbol " , fontSymbol ) . toString ( ) ;
fontMathRoman = settings . value ( group + " font_math_roman " , fontRoman ) . toString ( ) ;
fontMathSans = settings . value ( group + " font_math_sans " , fontSans ) . toString ( ) ;
fontBraces = settings . value ( group + " font_braces " , fontRoman ) . toString ( ) ;
fontIntegrals = settings . value ( group + " font_integrals " , fontSans ) . toString ( ) ;
fontBlackboard = settings . value ( group + " font_blackboard " , fontSans ) . toString ( ) ;
fontCaligraphic = settings . value ( group + " font_caligraphics " , fontSans ) . toString ( ) ;
brace_factor = settings . value ( group + " brace_factor " , brace_factor ) . toDouble ( ) ;
brace_shrink_factor = settings . value ( group + " brace_shrink_factor " , brace_shrink_factor ) . toDouble ( ) ;
subsuper_size_factor = settings . value ( group + " subsuper_size_factor " , subsuper_size_factor ) . toDouble ( ) ;
italic_correction_factor = settings . value ( group + " italic_correction_factor " , italic_correction_factor ) . toDouble ( ) ;
super_shift_factor = settings . value ( group + " super_shift_factor " , super_shift_factor ) . toDouble ( ) ;
sub_shift_factor = settings . value ( group + " sub_shift_factor " , sub_shift_factor ) . toDouble ( ) ;
frac_factor = settings . value ( group + " frac_factor " , frac_factor ) . toDouble ( ) ;
frac_shift_factor = settings . value ( group + " frac_shift_factor " , frac_shift_factor ) . toDouble ( ) ;
underbrace_factor = settings . value ( group + " underbrace_factor " , underbrace_factor ) . toDouble ( ) ;
underset_factor = settings . value ( group + " underset_factor " , underset_factor ) . toDouble ( ) ;
brace_y_shift_factor = settings . value ( group + " brace_y_shift_factor " , brace_y_shift_factor ) . toDouble ( ) ;
decoration_height_factor = settings . value ( group + " decoration_height_factor " , decoration_height_factor ) . toDouble ( ) ;
operatorsubsuper_size_factor = settings . value ( group + " operatorsubsuper_size_factor " , operatorsubsuper_size_factor ) . toDouble ( ) ;
mathoperator_width_factor = settings . value ( group + " mathoperator_width_factor " , mathoperator_width_factor ) . toDouble ( ) ;
QString v = settings . value ( group + " font_encoding " , " win_symbol " ) . toString ( ) . toLower ( ) ;
fontEncoding = MTFEwinSymbol ;
if ( v = = " unicode " ) fontEncoding = MTFEunicode ;
useSTIXfonts = settings . value ( group + " use_stix_fonts " , false ) . toBool ( ) ;
useXITSfonts = settings . value ( group + " use_xits_fonts " , false ) . toBool ( ) ;
useASANAfonts = settings . value ( group + " use_asana_fonts " , false ) . toBool ( ) ;
if ( useSTIXfonts ) useSTIX ( ) ;
if ( useXITSfonts ) useXITS ( ) ;
if ( useASANAfonts ) useASANA ( ) ;
}
void JKQTmathText : : saveSettings ( QSettings & settings , QString group ) {
JKQTMTPROPERTYsave ( settings , group , fontSize , " font_size " ) ;
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if ( fontColor ! = def_fontColor ) settings . setValue ( group + " font_color " , JKQTP_QColor2String ( fontColor ) ) ;
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JKQTMTPROPERTYsave ( settings , group , fontRoman , " font_roman " ) ;
JKQTMTPROPERTYsave ( settings , group , fontSans , " font_sans " ) ;
JKQTMTPROPERTYsave ( settings , group , fontTypewriter , " font_typewriter " ) ;
JKQTMTPROPERTYsave ( settings , group , fontScript , " font_script " ) ;
JKQTMTPROPERTYsave ( settings , group , fontGreek , " font_greek " ) ;
JKQTMTPROPERTYsave ( settings , group , fontSymbol , " font_symbol " ) ;
JKQTMTPROPERTYsave ( settings , group , fontMathRoman , " font_math_roman " ) ;
JKQTMTPROPERTYsave ( settings , group , fontMathSans , " font_math_sans " ) ;
JKQTMTPROPERTYsave ( settings , group , fontBraces , " font_braces " ) ;
JKQTMTPROPERTYsave ( settings , group , fontIntegrals , " font_integrals " ) ;
JKQTMTPROPERTYsave ( settings , group , fontBlackboard , " font_blackboard " ) ;
JKQTMTPROPERTYsave ( settings , group , fontCaligraphic , " font_caligraphic " ) ;
JKQTMTPROPERTYsave ( settings , group , brace_factor , " brace_factor " ) ;
JKQTMTPROPERTYsave ( settings , group , brace_shrink_factor , " brace_shrink_factor " ) ;
JKQTMTPROPERTYsave ( settings , group , subsuper_size_factor , " subsuper_size_factor " ) ;
JKQTMTPROPERTYsave ( settings , group , italic_correction_factor , " italic_correction_factor " ) ;
JKQTMTPROPERTYsave ( settings , group , sub_shift_factor , " sub_shift_factor " ) ;
JKQTMTPROPERTYsave ( settings , group , super_shift_factor , " super_shift_factor " ) ;
JKQTMTPROPERTYsave ( settings , group , useSTIXfonts , " use_stix_fonts " ) ;
JKQTMTPROPERTYsave ( settings , group , useXITSfonts , " use_xits_fonts " ) ;
JKQTMTPROPERTYsave ( settings , group , useASANAfonts , " use_asana_fonts " ) ;
JKQTMTPROPERTYsave ( settings , group , frac_factor , " frac_factor " ) ;
JKQTMTPROPERTYsave ( settings , group , frac_shift_factor , " frac_shift_factor " ) ;
JKQTMTPROPERTYsave ( settings , group , underbrace_factor , " underbrace_factor " ) ;
JKQTMTPROPERTYsave ( settings , group , underset_factor , " underset_factor " ) ;
JKQTMTPROPERTYsave ( settings , group , operatorsubsuper_size_factor , " operatorsubsuper_size_factor " ) ;
JKQTMTPROPERTYsave ( settings , group , mathoperator_width_factor , " mathoperator_width_factor " ) ;
JKQTMTPROPERTYsave ( settings , group , brace_y_shift_factor , " brace_y_shift_factor " ) ;
JKQTMTPROPERTYsave ( settings , group , decoration_height_factor , " decoration_height_factor " ) ;
if ( fontEncoding ! = def_fontEncoding ) {
if ( fontEncoding = = MTFEunicode ) settings . setValue ( group + " font_encoding " , " unicode " ) ;
else if ( fontEncoding = = MTFEwinSymbol ) settings . setValue ( group + " font_encoding " , " win_symbol " ) ;
}
}
void JKQTmathText : : useSTIX ( ) {
useSTIXfonts = true ;
fontGreek = " STIXGeneral " ;
fontSymbol = " STIXGeneral " ;
fontBraces = " STIXGeneral " ;
fontIntegrals = " STIXGeneral " ;
//fontRoman="STIXGeneral";
fontMathRoman = " STIXGeneral " ;
fontEncoding = MTFEunicode ;
brace_shrink_factor = 0.6 ;
}
void JKQTmathText : : useXITS ( )
{
QFontDatabase fdb ;
# ifdef AUTOLOAD_XITS_FONTS
//qDebug()<<"has XITS: "<<fdb.families().contains("XITS");
if ( ! fdb . families ( ) . contains ( " XITS " ) ) {
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int i = 0 ;
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if ( QFile : : exists ( " :/JKQTmathText/fonts/xits-bold.otf " ) ) { i = QFontDatabase : : addApplicationFont ( " :/JKQTmathText/fonts/xits-bold.otf " ) ; }
//qDebug()<<QFontDatabase::applicationFontFamilies(i);
if ( QFile : : exists ( " :/JKQTmathText/fonts/xits-bolditalic.otf " ) ) { i = QFontDatabase : : addApplicationFont ( " :/JKQTmathText/fonts/xits-bolditalic.otf " ) ; }
//qDebug()<<QFontDatabase::applicationFontFamilies(i);
if ( QFile : : exists ( " :/JKQTmathText/fonts/xits-italic.otf " ) ) { i = QFontDatabase : : addApplicationFont ( " :/JKQTmathText/fonts/xits-italic.otf " ) ; }
//qDebug()<<QFontDatabase::applicationFontFamilies(i);
if ( QFile : : exists ( " :/JKQTmathText/fonts/xits-math.otf " ) ) { i = QFontDatabase : : addApplicationFont ( " :/JKQTmathText/fonts/xits-math.otf " ) ; }
//qDebug()<<QFontDatabase::applicationFontFamilies(i);
if ( QFile : : exists ( " :/JKQTmathText/fonts/xits-mathbold.otf " ) ) { i = QFontDatabase : : addApplicationFont ( " :/JKQTmathText/fonts/xits-mathbold.otf " ) ; }
//qDebug()<<QFontDatabase::applicationFontFamilies(i);
if ( QFile : : exists ( " :/JKQTmathText/fonts/xits-regular.otf " ) ) { i = QFontDatabase : : addApplicationFont ( " :/JKQTmathText/fonts/xits-regular.otf " ) ; }
//qDebug()<<QFontDatabase::applicationFontFamilies(i);
( void ) i ;
}
# endif
//qDebug()<<"has XITS: "<<fdb.families().contains("XITS")<<"\n"<<fdb.families();
bool hasXITS = false ;
QString XITSfam ;
//bool hasXITSMath=false;
QString XITSMathfam ;
for ( int i = 0 ; i < fdb . families ( ) . size ( ) ; i + + ) {
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//::cout<<fdb.families().at(i).simplified().toStdString()<<"\n";
//qDebug()<<fdb.families().at(i).simplified();
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if ( fdb . families ( ) . at ( i ) . contains ( " XITS Math " ) ) {
//hasXITSMath=true;
XITSMathfam = fdb . families ( ) . at ( i ) ;
} else if ( fdb . families ( ) . at ( i ) . contains ( " XITS " ) ) {
hasXITS = true ;
XITSfam = fdb . families ( ) . at ( i ) ;
}
}
QString fam = " XITS " ;
if ( hasXITS ) fam = XITSfam ;
//if (hasXITSMath) fam=XITSMathfam;
useXITSfonts = true ;
//fontRoman=fam;
//fontSans=fam;
fontMathRoman = fam ;
fontMathSans = fam ;
fontTypewriter = fam ;
fontBlackboard = fam ;
fontCaligraphic = fam ;
fontScript = fam ;
fontBraces = fam ;
fontSymbol = fam ;
fontGreek = fam ;
fontEncoding = MTFEunicode ;
brace_shrink_factor = 0.6 ;
}
void JKQTmathText : : useASANA ( )
{
QFontDatabase fdb ;
# ifdef AUTOLOAD_XITS_FONTS
//qDebug()<<"has XITS: "<<fdb.families().contains("XITS");
if ( ! fdb . families ( ) . contains ( " Asana " ) ) {
//int i;//=-1;
if ( QFile : : exists ( " :/JKQTmathText/fonts/asana-math.otf " ) ) { /*i=*/ QFontDatabase : : addApplicationFont ( " :/JKQTmathText/fonts/asana-math.otf " ) ; }
//qDebug()<<QFontDatabase::applicationFontFamilies(i);
}
# endif
//qDebug()<<"has ASANA: "<<fdb.families().contains("Asana Math");
bool hasXITS = false ;
QString XITSfam ;
//bool hasXITSMath=false;
QString XITSMathfam ;
for ( int i = 0 ; i < fdb . families ( ) . size ( ) ; i + + ) {
if ( fdb . families ( ) . at ( i ) . contains ( " Asana Math " ) ) {
//hasXITSMath=true;
XITSMathfam = fdb . families ( ) . at ( i ) ;
} else if ( fdb . families ( ) . at ( i ) . contains ( " Asana " ) ) {
hasXITS = true ;
XITSfam = fdb . families ( ) . at ( i ) ;
}
}
QString fam = " Asana Math " ;
if ( hasXITS ) fam = XITSfam ;
useXITSfonts = true ;
//fontRoman=fam;
//fontSans=fam;
fontMathRoman = fam ;
fontMathSans = fam ;
fontTypewriter = fam ;
fontBlackboard = fam ;
fontCaligraphic = fam ;
fontScript = fam ;
fontBraces = fam ;
fontSymbol = fam ;
fontGreek = fam ;
fontEncoding = MTFEunicode ;
brace_shrink_factor = 0.6 ;
}
void JKQTmathText : : useLatexFonts ( QString prefix , QString postfix ) {
fontLatexPostfix = postfix ;
fontLatexPrefix = prefix ;
fontRoman = prefix + " cmr " + postfix ;
fontSans = prefix + " cmss " + postfix ;
fontMathRoman = prefix + " cmr " + postfix ;
fontMathSans = prefix + " cmss " + postfix ;
fontTypewriter = prefix + " cmtt " + postfix ;
fontBlackboard = prefix + " dsrom " + postfix ;
fontCaligraphic = prefix + " csmy " + postfix ;
fontScript = prefix + " rsfs " + postfix ;
fontBraces = prefix + " cmex " + postfix ;
fontSymbol = prefix + " cmsy " + postfix ;
fontGreek = prefix + " cmmi " + postfix ;
fontEncoding = MTFElatex ;
brace_shrink_factor = 0.6 ;
}
QString JKQTmathText : : toHtml ( bool * ok , double fontPointSize ) {
QString s ;
bool okk = false ;
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if ( getTree ( ) ! = nullptr ) {
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MTenvironment ev ;
ev . color = fontColor ;
ev . fontSize = fontPointSize ;
MTenvironment defaultev ;
defaultev . fontSize = fontPointSize ;
okk = getTree ( ) - > toHtml ( s , ev , defaultev ) ;
}
if ( ok ) * ok = okk ;
return s ;
}
void JKQTmathText : : useAnyUnicode ( QString timesFont , QString sansFont ) {
if ( ! timesFont . isEmpty ( ) ) { fontMathRoman = timesFont ; fontRoman = timesFont ; }
if ( ! sansFont . isEmpty ( ) ) { fontMathSans = sansFont ; fontSans = sansFont ; }
useSTIXfonts = false ;
useXITSfonts = false ;
useASANAfonts = false ;
fontGreek = fontMathRoman ;
fontSymbol = fontMathRoman ;
fontBraces = fontMathRoman ;
fontIntegrals = fontMathRoman ;
fontEncoding = MTFEunicode ;
brace_shrink_factor = 0.6 ;
}
JKQTmathText : : tokenType JKQTmathText : : getToken ( ) {
currentTokenID + + ;
if ( currentTokenID > parseString . size ( ) - 1 ) return currentToken = MTTnone ;
QChar c = parseString [ currentTokenID ] ;
currentTokenName = " " ;
if ( c = = ' \\ ' ) { // read an instruction name
currentTokenID + + ;
if ( currentTokenID > = parseString . size ( ) - 1 ) return currentToken = MTTnone ;
c = parseString [ currentTokenID ] ;
/*if (c=='_' || c=='\\' || c=='$' || c=='%' || c=='&' || c=='#' || c=='}' || c=='{') {
currentTokenName = c ; // parse special one-symbol instructions like \\, \& ...
// that may be directly converted to text
return currentToken = MTTtext ;
} else */ if ( c = = ' | ' | | c = = ' ; ' | | c = = ' : ' | | c = = ' ! ' | | c = = ' , ' | | c = = ' _ ' | | c = = ' \\ ' | | c = = ' $ ' | |
c = = ' % ' | | c = = ' & ' | | c = = ' # ' | | c = = ' } ' | | c = = ' { ' | | c = = ' ' ) {
currentTokenName = c ; // parse one-symbol instructions like \\, \& ...
//std::cout<<"found text node '"<<currentTokenName.toStdString()<<"'\n";
return currentToken = MTTinstruction ;
} else { // parse letter instructions
while ( c . isLetter ( ) & & ( currentTokenID < parseString . size ( ) ) ) {
currentTokenName + = c ;
currentTokenID + + ;
if ( currentTokenID < parseString . size ( ) ) c = parseString [ currentTokenID ] ;
}
if ( ! c . isLetter ( ) ) currentTokenID - - ;
currentTokenName = currentTokenName . trimmed ( ) ;
}
//std::cout<<"found instruction node '"<<currentTokenName.toStdString()<<"'\n";
return currentToken = MTTinstruction ;
} else if ( c = = ' $ ' ) {
//std::cout<<"found dollar\n";
return currentToken = MTTdollar ;
} else if ( c = = ' & ' ) {
//std::cout<<"found ampersand\n";
return currentToken = MTTampersand ;
} else if ( c = = ' { ' ) {
//std::cout<<"found openbrace\n";
return currentToken = MTTopenbrace ;
} else if ( c = = ' } ' ) {
//std::cout<<"found closebrace\n";
return currentToken = MTTclosebrace ;
} else if ( c = = ' _ ' ) {
//std::cout<<"found underscore\n";
return currentToken = MTTunderscore ;
} else if ( c = = ' ^ ' ) {
//std::cout<<"found hat\n";
return currentToken = MTThat ;
} else if ( c . isSpace ( ) ) {
while ( c . isSpace ( ) & & ( currentTokenID < parseString . size ( ) ) ) { // eat up whitespace
currentTokenID + + ;
if ( currentTokenID < parseString . size ( ) ) c = parseString [ currentTokenID ] ;
}
if ( ! c . isSpace ( ) ) currentTokenID - - ;
//std::cout<<"found whitespace\n";
return currentToken = MTTwhitespace ;
} else {
if ( parsingMathEnvironment ) {
// inside math environments we split texts at every brace {[(|)]} so that
// braces form their own MTtextNode and may be formated accordingly
if ( c = = ' ( ' | | c = = ' [ ' | | c = = ' | ' | | c = = ' ) ' | | c = = ' ] ' ) {
currentTokenName = c ;
//std::cout<<"found text node '"<<currentTokenName.toStdString()<<"'\n";
return currentToken = MTTtext ;
}
while ( c ! = ' ( ' & & c ! = ' & ' & & c ! = ' [ ' & & c ! = ' | ' & & c ! = ' ) ' & & c ! = ' ] ' & & c ! = ' \\ ' & & c ! = ' $ ' & & c ! = ' { ' & & c ! = ' } ' & & c ! = ' _ ' & & c ! = ' ^ ' & & ( currentTokenID < parseString . size ( ) ) ) {
// add whitespaces only once
if ( c . isSpace ( ) ) {
if ( ! currentTokenName . isEmpty ( ) ) {
if ( ! currentTokenName [ currentTokenName . size ( ) - 1 ] . isSpace ( ) )
currentTokenName + = c ;
}
} else currentTokenName + = c ;
currentTokenID + + ;
if ( currentTokenID < parseString . size ( ) ) c = parseString [ currentTokenID ] ;
}
if ( c = = ' & ' | | c = = ' ( ' | | c = = ' [ ' | | c = = ' | ' | | c = = ' ) ' | | c = = ' ] ' | | c = = ' \\ ' | | c = = ' $ ' | | c = = ' { ' | | c = = ' } ' | | c = = ' _ ' | | c = = ' ^ ' | | c . isSpace ( ) ) currentTokenID - - ;
//currentTokenName=currentTokenName.trimmed();
//std::cout<<"found text node '"<<currentTokenName.toStdString()<<"'\n";
return currentToken = MTTtext ;
} else {
while ( ( ! c . isSpace ( ) ) & & c ! = ' & ' & & c ! = ' \\ ' & & c ! = ' $ ' & & c ! = ' { ' & & c ! = ' } ' & & c ! = ' _ ' & & c ! = ' ^ ' & & ( currentTokenID < parseString . size ( ) ) ) {
// add whitespaces only once
if ( c . isSpace ( ) ) {
if ( ! currentTokenName . isEmpty ( ) ) {
if ( ! currentTokenName [ currentTokenName . size ( ) - 1 ] . isSpace ( ) )
currentTokenName + = c ;
}
} else currentTokenName + = c ;
currentTokenID + + ;
if ( currentTokenID < parseString . size ( ) ) c = parseString [ currentTokenID ] ;
}
if ( c = = ' & ' | | c = = ' \\ ' | | c = = ' $ ' | | c = = ' { ' | | c = = ' } ' | | c = = ' _ ' | | c = = ' ^ ' | | c . isSpace ( ) ) currentTokenID - - ;
//currentTokenName=currentTokenName.trimmed();
//std::cout<<"found text node '"<<currentTokenName.toStdString()<<"'\n";
return currentToken = MTTtext ;
}
}
return currentToken = MTTnone ;
}
JKQTmathText : : MTnode * JKQTmathText : : parseLatexString ( bool get , QString quitOnClosingBrace , QString quitOnEnvironmentEnd ) {
//std::cout<<" entering parseLatexString()\n";
MTlistNode * nl = new MTlistNode ( this ) ;
if ( get ) getToken ( ) ;
bool getNew = true ;
while ( currentToken ! = MTTnone ) {
getNew = true ;
if ( currentToken = = MTTtext ) {
QString text = currentTokenName ;
bool addWhite = ( getToken ( ) = = MTTwhitespace ) & & ( ! parsingMathEnvironment ) ;
getNew = addWhite ;
nl - > addNode ( new MTtextNode ( this , text , addWhite , parsingMathEnvironment ) ) ;
} else if ( currentToken = = MTTinstruction ) {
QString name = currentTokenName ;
if ( name = = " \\ " ) break ; // break on linebrak character
getToken ( ) ; // look at next token
if ( currentToken = = MTTopenbrace ) {
//std::cout<<"found '{' after '"<<name.toStdString()<<"'\n";
if ( name = = " sqrt " ) {
nl - > addNode ( new MTsqrtNode ( this , parseLatexString ( true ) ) ) ;
} else if ( name = = " cbrt " ) {
nl - > addNode ( new MTsqrtNode ( this , parseLatexString ( true ) , 3 ) ) ;
} else if ( name = = " verb " ) {
QString text = " " ;
currentTokenID + + ;
if ( currentTokenID < = parseString . size ( ) - 1 ) {
QChar c = parseString [ currentTokenID ] ;
while ( c ! = ' } ' & & ( currentTokenID < parseString . size ( ) ) ) {
text = text + c ;
currentTokenID + + ;
if ( currentTokenID < parseString . size ( ) ) c = parseString [ currentTokenID ] ;
}
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if ( c ! = ' } ' ) error_list . append ( tr ( " error @ ch. %1: \v erb{...} not closed by '}' " ) . arg ( currentTokenID ) . arg ( name ) ) ;
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nl - > addNode ( new MTtextNode ( this , text , false ) ) ;
}
} else if ( name = = " frac " ) {
MTnode * n1 = parseLatexString ( true ) ;
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MTnode * n2 = nullptr ;
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if ( getToken ( ) = = MTTopenbrace ) n2 = parseLatexString ( true ) ;
if ( n1 & & n2 ) nl - > addNode ( new MTfracNode ( this , n1 , n2 , MTFMfrac ) ) ;
else error_list . append ( tr ( " error @ ch. %1: expected two arguments in '{' braces after '%2' command " ) . arg ( currentTokenID ) . arg ( name ) ) ;
} else if ( name = = " dfrac " ) {
MTnode * n1 = parseLatexString ( true ) ;
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MTnode * n2 = nullptr ;
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if ( getToken ( ) = = MTTopenbrace ) n2 = parseLatexString ( true ) ;
if ( n1 & & n2 ) nl - > addNode ( new MTfracNode ( this , n1 , n2 , MTFMdfrac ) ) ;
else error_list . append ( tr ( " error @ ch. %1: expected two arguments in '{' braces after '%2' command " ) . arg ( currentTokenID ) . arg ( name ) ) ;
} else if ( name = = " tfrac " ) {
MTnode * n1 = parseLatexString ( true ) ;
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MTnode * n2 = nullptr ;
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if ( getToken ( ) = = MTTopenbrace ) n2 = parseLatexString ( true ) ;
if ( n1 & & n2 ) nl - > addNode ( new MTfracNode ( this , n1 , n2 , MTFMtfrac ) ) ;
else error_list . append ( tr ( " error @ ch. %1: expected two arguments in '{' braces after '%2' command " ) . arg ( currentTokenID ) . arg ( name ) ) ;
} else if ( name = = " stackrel " ) {
MTnode * n1 = parseLatexString ( true ) ;
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MTnode * n2 = nullptr ;
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if ( getToken ( ) = = MTTopenbrace ) n2 = parseLatexString ( true ) ;
if ( n1 & & n2 ) nl - > addNode ( new MTfracNode ( this , n1 , n2 , MTFMstackrel ) ) ;
else error_list . append ( tr ( " error @ ch. %1: expected two arguments in '{' braces after '%2' command " ) . arg ( currentTokenID ) . arg ( name ) ) ;
} else if ( name = = " binom " ) {
MTnode * n1 = parseLatexString ( true ) ;
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MTnode * n2 = nullptr ;
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if ( getToken ( ) = = MTTopenbrace ) n2 = parseLatexString ( true ) ;
if ( n1 & & n2 ) nl - > addNode ( new MTbraceNode ( this , " ( " , " ) " , new MTfracNode ( this , n1 , n2 , MTFMstackrel ) ) ) ;
else error_list . append ( tr ( " error @ ch. %1: expected two arguments in '{' braces after '%2' command " ) . arg ( currentTokenID ) . arg ( name ) ) ;
} else if ( name = = " underbrace " ) {
MTnode * n1 = parseLatexString ( true ) ;
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MTnode * n2 = nullptr ;
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if ( getToken ( ) = = MTTopenbrace ) n2 = parseLatexString ( true ) ;
if ( n1 & & n2 ) nl - > addNode ( new MTfracNode ( this , n1 , n2 , MTFMunderbrace ) ) ;
else error_list . append ( tr ( " error @ ch. %1: expected two arguments in '{' braces after '%2' command " ) . arg ( currentTokenID ) . arg ( name ) ) ;
} else if ( name = = " underset " ) {
MTnode * n1 = parseLatexString ( true ) ;
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MTnode * n2 = nullptr ;
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if ( getToken ( ) = = MTTopenbrace ) n2 = parseLatexString ( true ) ;
if ( n1 & & n2 ) nl - > addNode ( new MTfracNode ( this , n1 , n2 , MTFMunderset ) ) ;
else error_list . append ( tr ( " error @ ch. %1: expected two arguments in '{' braces after '%2' command " ) . arg ( currentTokenID ) . arg ( name ) ) ;
} else if ( name = = " overbrace " ) {
MTnode * n1 = parseLatexString ( true ) ;
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MTnode * n2 = nullptr ;
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if ( getToken ( ) = = MTTopenbrace ) n2 = parseLatexString ( true ) ;
if ( n1 & & n2 ) nl - > addNode ( new MTfracNode ( this , n1 , n2 , MTFMoverbrace ) ) ;
else error_list . append ( tr ( " error @ ch. %1: expected two arguments in '{' braces after '%2' command " ) . arg ( currentTokenID ) . arg ( name ) ) ;
} else if ( name = = " overset " ) {
MTnode * n1 = parseLatexString ( true ) ;
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MTnode * n2 = nullptr ;
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if ( getToken ( ) = = MTTopenbrace ) n2 = parseLatexString ( true ) ;
if ( n1 & & n2 ) nl - > addNode ( new MTfracNode ( this , n1 , n2 , MTFMoverset ) ) ;
else error_list . append ( tr ( " error @ ch. %1: expected two arguments in '{' braces after '%2' command " ) . arg ( currentTokenID ) . arg ( name ) ) ;
} else if ( name = = " begin " ) {
if ( getToken ( ) = = MTTtext ) {
QString envname = currentTokenName ;
while ( currentToken ! = MTTclosebrace ) getToken ( ) ; // find closing brace '}' after '\\begin{name'
if ( envname = = " matrix " | | envname = = " array " | | envname = = " aligned " | | envname = = " align " | | envname = = " cases " | | envname = = " pmatrix " | | envname = = " bmatrix " | | envname = = " Bmatrix " | | envname = = " vmatrix " | | envname = = " Vmatrix " ) {
QVector < QVector < MTnode * > > items ;
//int lines=0;
//int cols=0;
bool first = true ;
QVector < MTnode * > line ;
//std::cout<<"found \\begin{matrix}\n";
while ( first | | currentToken = = MTTampersand | | ( currentToken = = MTTinstruction & & currentTokenName = = " \\ " ) ) {
MTnode * it = parseLatexString ( true , " " , envname ) ;
if ( currentToken = = MTTampersand ) {
//std::cout<<" appending item\n";
line . append ( it ) ;
} else {
line . append ( it ) ;
//std::cout<<" appending item and line with "<<line.size()<<" items.\n";
items . append ( line ) ;
line . clear ( ) ;
}
first = false ;
}
//std::cout<<" creating matrix-node with "<<items.size()<<" items.\n";
if ( envname = = " pmatrix " ) nl - > addNode ( new MTbraceNode ( this , " ( " , " ) " , new MTmatrixNode ( this , items ) ) ) ;
else if ( envname = = " cases " ) nl - > addNode ( new MTbraceNode ( this , " { " , " " , new MTmatrixNode(this, items)));
else if ( envname = = " bmatrix " ) nl - > addNode ( new MTbraceNode ( this , " [ " , " ] " , new MTmatrixNode ( this , items ) ) ) ;
else if ( envname = = " Bmatrix " ) nl - > addNode ( new MTbraceNode ( this , " { " , " } " , new MTmatrixNode(this, items)));
else if ( envname = = " vmatrix " ) nl - > addNode ( new MTbraceNode ( this , " | " , " | " , new MTmatrixNode ( this , items ) ) ) ;
else if ( envname = = " Vmatrix " ) nl - > addNode ( new MTbraceNode ( this , " || " , " || " , new MTmatrixNode ( this , items ) ) ) ;
else nl - > addNode ( new MTmatrixNode ( this , items ) ) ;
//std::cout<<" creating matrix-node ... done!\n";
} else {
error_list . append ( tr ( " error @ ch. %1: unknown environment '%2' " ) . arg ( currentTokenID ) . arg ( envname ) ) ;
}
} else { // find next '}'
error_list . append ( tr ( " error @ ch. %1: text after ' \\ begin{' expected! " ) . arg ( currentTokenID ) ) ;
while ( currentToken ! = MTTclosebrace ) getToken ( ) ;
getNew = true ;
}
} else if ( name = = " end " ) {
if ( getToken ( ) = = MTTtext ) {
QString envname = currentTokenName ;
while ( currentToken ! = MTTclosebrace ) getToken ( ) ; // find closing brace '}' after '\\begin{name'
if ( envname = = quitOnEnvironmentEnd ) {
break ;
} else {
error_list . append ( tr ( " error @ ch. %1: ' \\ end{%2}' widthout preceding ' \\ begin{%3}' " ) . arg ( currentTokenID ) . arg ( envname ) . arg ( envname ) ) ;
}
} else { // find next '}'
error_list . append ( tr ( " error @ ch. %1: text after ' \\ begin{' expected! " ) . arg ( currentTokenID ) ) ;
while ( currentToken ! = MTTclosebrace ) getToken ( ) ;
getNew = true ;
}
} else if ( name = = " vec " ) {
nl - > addNode ( new MTdecoratedNode ( this , MTDvec , parseLatexString ( true ) ) ) ;
} else if ( name = = " overline " | | name = = " oline " | | name = = " ol " ) {
nl - > addNode ( new MTdecoratedNode ( this , MTDoverline , parseLatexString ( true ) ) ) ;
} else if ( name = = " underline " | | name = = " uline " | | name = = " ul " ) {
nl - > addNode ( new MTdecoratedNode ( this , MTDunderline , parseLatexString ( true ) ) ) ;
} else if ( name = = " uuline " | | name = = " uul " ) {
nl - > addNode ( new MTdecoratedNode ( this , MTDdoubleunderline , parseLatexString ( true ) ) ) ;
} else if ( name = = " ooline " | | name = = " ool " ) {
nl - > addNode ( new MTdecoratedNode ( this , MTDdoubleoverline , parseLatexString ( true ) ) ) ;
} else if ( name = = " arrow " ) {
nl - > addNode ( new MTdecoratedNode ( this , MTDarrow , parseLatexString ( true ) ) ) ;
} else if ( name = = " hat " ) {
nl - > addNode ( new MTdecoratedNode ( this , MTDhat , parseLatexString ( true ) ) ) ;
} else if ( name = = " bar " ) {
nl - > addNode ( new MTdecoratedNode ( this , MTDbar , parseLatexString ( true ) ) ) ;
} else if ( name = = " dot " ) {
nl - > addNode ( new MTdecoratedNode ( this , MTDdot , parseLatexString ( true ) ) ) ;
} else if ( name = = " tilde " ) {
nl - > addNode ( new MTdecoratedNode ( this , MTDtilde , parseLatexString ( true ) ) ) ;
} else if ( name = = " ddot " ) {
nl - > addNode ( new MTdecoratedNode ( this , MTDddot , parseLatexString ( true ) ) ) ;
} else {
if ( name = = " textcolor " | | name = = " mathcolor " | | name = = " color " | | name = = " colorbox " ) {
bool foundError = true ;
QString col = " " ;
if ( getToken ( ) = = MTTtext ) {
col = currentTokenName ;
if ( getToken ( ) = = MTTclosebrace ) {
if ( getToken ( ) = = MTTopenbrace ) {
foundError = false ;
}
}
}
if ( foundError ) error_list . append ( tr ( " error @ ch. %1: expected two arguments in '{' braces after '%2' command " ) . arg ( currentTokenID ) . arg ( name ) ) ;
else nl - > addNode ( new MTinstruction1Node ( this , name , parseLatexString ( true ) , QStringList ( col ) ) ) ;
} else {
nl - > addNode ( new MTinstruction1Node ( this , name , parseLatexString ( true ) ) ) ;
}
}
} else {
//std::cout<<"did not find '{' after '"<<name.toStdString()<<"'\n";
if ( name = = " right " ) {
if ( currentToken = = MTTtext ) {
if ( currentTokenName . size ( ) > 0 ) {
if ( QString ( currentTokenName [ 0 ] ) = = quitOnClosingBrace | | quitOnClosingBrace = = " any " | | QString ( currentTokenName [ 0 ] ) = = " . " ) {
//std::cout<<"found \\right '"<<currentTokenName.toStdString()<<"'\n";
showRightBrace = ( QString ( currentTokenName [ 0 ] ) ! = " . " ) ;
//if (!showRightBrace) std::cout<<"don't show right brace '"<<quitOnClosingBrace.toStdString()<<"' !!!\n";
if ( quitOnClosingBrace ! = " any " ) currentTokenName = currentTokenName . right ( currentTokenName . size ( ) - 1 ) ;
break ;
} else {
getNew = false ;
}
}
} else if ( currentToken = = MTTinstruction ) {
if ( quitOnClosingBrace = = " ~ " & & ( currentTokenName = = " rceil " | | QString ( currentTokenName [ 0 ] ) = = " . " ) ) {
showRightBrace = ( QString ( currentTokenName [ 0 ] ) ! = " . " ) ;
currentTokenName = currentTokenName . right ( currentTokenName . size ( ) - 1 ) ;
break ;
} else if ( quitOnClosingBrace = = " } " & & ( currentTokenName = = " } " | | QString ( currentTokenName [ 0 ] ) = = " . " ) ) {
showRightBrace = ( QString ( currentTokenName [ 0 ] ) ! = " . " ) ;
currentTokenName = currentTokenName . right ( currentTokenName . size ( ) - 1 ) ;
break ;
} else if ( quitOnClosingBrace = = " _ " & & ( currentTokenName = = " rfloor " | | QString ( currentTokenName [ 0 ] ) = = " . " ) ) {
showRightBrace = ( QString ( currentTokenName [ 0 ] ) ! = " . " ) ;
currentTokenName = currentTokenName . right ( currentTokenName . size ( ) - 1 ) ;
break ;
} else if ( quitOnClosingBrace = = " # " & & ( currentTokenName = = " | " | | QString ( currentTokenName [ 0 ] ) = = " . " ) ) {
showRightBrace = ( QString ( currentTokenName [ 0 ] ) ! = " . " ) ;
currentTokenName = currentTokenName . right ( currentTokenName . size ( ) - 1 ) ;
break ;
} else if ( quitOnClosingBrace = = " > " & & ( currentTokenName = = " rangle " | | QString ( currentTokenName [ 0 ] ) = = " . " ) ) {
showRightBrace = ( QString ( currentTokenName [ 0 ] ) ! = " . " ) ;
currentTokenName = currentTokenName . right ( currentTokenName . size ( ) - 1 ) ;
break ;
} else if ( quitOnClosingBrace = = " any " ) {
showRightBrace = ( QString ( currentTokenName [ 0 ] ) ! = " . " ) ;
//currentTokenName=currentTokenName.right(currentTokenName.size()-1);
break ;
}
} else {
getNew = false ;
}
} else if ( name = = " left " ) {
if ( currentToken = = MTTtext ) {
if ( currentTokenName . size ( ) > 0 ) {
if ( currentTokenName [ 0 ] = = ' ( ' ) {
currentTokenName = currentTokenName . right ( currentTokenName . size ( ) - 1 ) ; // we already used the first character from the text token!
nl - > addNode ( new MTbraceNode ( this , " ( " , " ) " , parseLatexString ( currentTokenName . size ( ) < = 0 , " ) " ) , showRightBrace ) ) ;
} else if ( currentTokenName [ 0 ] = = ' [ ' ) {
currentTokenName = currentTokenName . right ( currentTokenName . size ( ) - 1 ) ;
nl - > addNode ( new MTbraceNode ( this , " [ " , " ] " , parseLatexString ( currentTokenName . size ( ) < = 0 , " ] " ) , showRightBrace ) ) ;
} else if ( currentTokenName [ 0 ] = = ' { ' ) {
currentTokenName = currentTokenName . right ( currentTokenName . size ( ) - 1 ) ;
nl - > addNode ( new MTbraceNode ( this , " { " , " } " , parseLatexString ( currentTokenName . size ( ) < = 0 , " } " ) , showRightBrace ) ) ;
} else if ( currentTokenName [ 0 ] = = ' < ' ) {
currentTokenName = currentTokenName . right ( currentTokenName . size ( ) - 1 ) ;
nl - > addNode ( new MTbraceNode ( this , " < " , " > " , parseLatexString ( currentTokenName . size ( ) < = 0 , " > " ) , showRightBrace ) ) ;
} else if ( currentTokenName [ 0 ] = = ' | ' ) {
currentTokenName = currentTokenName . right ( currentTokenName . size ( ) - 1 ) ;
nl - > addNode ( new MTbraceNode ( this , " | " , " | " , parseLatexString ( currentTokenName . size ( ) < = 0 , " | " ) , showRightBrace ) ) ;
} else if ( currentTokenName [ 0 ] = = ' ~ ' ) {
currentTokenName = currentTokenName . right ( currentTokenName . size ( ) - 1 ) ;
nl - > addNode ( new MTbraceNode ( this , " ~ " , " ~ " , parseLatexString ( currentTokenName . size ( ) < = 0 , " ~ " ) , showRightBrace ) ) ;
} else if ( currentTokenName [ 0 ] = = ' _ ' ) {
currentTokenName = currentTokenName . right ( currentTokenName . size ( ) - 1 ) ;
nl - > addNode ( new MTbraceNode ( this , " _ " , " _ " , parseLatexString ( currentTokenName . size ( ) < = 0 , " _ " ) , showRightBrace ) ) ;
} else if ( currentTokenName [ 0 ] = = ' # ' ) {
currentTokenName = currentTokenName . right ( currentTokenName . size ( ) - 1 ) ;
nl - > addNode ( new MTbraceNode ( this , " # " , " # " , parseLatexString ( currentTokenName . size ( ) < = 0 , " # " ) , showRightBrace ) ) ;
} else if ( currentTokenName [ 0 ] = = ' . ' ) {
currentTokenName = currentTokenName . right ( currentTokenName . size ( ) - 1 ) ;
JKQTmathText : : MTnode * cn = parseLatexString ( currentTokenName . size ( ) < = 0 , " any " ) ;
nl - > addNode ( new MTbraceNode ( this , " . " , currentTokenName , cn , showRightBrace ) ) ;
} else {
getNew = false ;
}
}
} else if ( currentToken = = MTTinstruction & & currentTokenName = = " langle " ) {
currentTokenName = currentTokenName . right ( currentTokenName . size ( ) - 1 ) ;
nl - > addNode ( new MTbraceNode ( this , " < " , " > " , parseLatexString ( true , " > " ) , showRightBrace ) ) ;
} else if ( currentToken = = MTTinstruction & & currentTokenName = = " { " ) {
currentTokenName = currentTokenName . right ( currentTokenName . size ( ) - 1 ) ;
nl - > addNode ( new MTbraceNode ( this , " { " , " } " , parseLatexString ( currentTokenName . size ( ) < = 0 , " } " ) , showRightBrace ) ) ;
} else if ( currentToken = = MTTinstruction & & currentTokenName = = " lfloor " ) {
currentTokenName = currentTokenName . right ( currentTokenName . size ( ) - 1 ) ;
nl - > addNode ( new MTbraceNode ( this , " _ " , " _ " , parseLatexString ( true , " _ " ) , showRightBrace ) ) ;
} else if ( currentToken = = MTTinstruction & & currentTokenName = = " lceil " ) {
currentTokenName = currentTokenName . right ( currentTokenName . size ( ) - 1 ) ;
nl - > addNode ( new MTbraceNode ( this , " ~ " , " ~ " , parseLatexString ( true , " ~ " ) , showRightBrace ) ) ;
} else if ( currentToken = = MTTinstruction & & currentTokenName = = " | " ) {
currentTokenName = currentTokenName . right ( currentTokenName . size ( ) - 1 ) ;
nl - > addNode ( new MTbraceNode ( this , " # " , " # " , parseLatexString ( currentTokenName . size ( ) < = 0 , " # " ) , showRightBrace ) ) ;
} else if ( currentToken = = MTTinstruction & & currentTokenName = = quitOnClosingBrace ) {
break ;
}
} else {
//bool addWhite=(currentToken==MTTwhitespace);
//getNew=addWhite;
getNew = false ;
bool done = false ;
if ( name . size ( ) = = 2 ) {
QChar n0 = name [ 0 ] ;
QChar n1 = name [ 1 ] ;
if ( n0 = = ' v ' & & n1 . isLetter ( ) ) {
done = true ;
//std::cout<<"found \\v... command\n";
nl - > addNode ( new MTdecoratedNode ( this , MTDvec , new MTtextNode ( this , QString ( n1 ) , false , parsingMathEnvironment ) ) ) ;
} else if ( n0 = = ' c ' & & n1 . isLetter ( ) ) {
done = true ;
//std::cout<<"found \\v... command\n";
nl - > addNode ( new MTinstruction1Node ( this , " mathcal " , new MTtextNode ( this , QString ( n1 ) , false , parsingMathEnvironment ) ) ) ;
}
} else if ( name . size ( ) = = 3 ) {
QString n0 = name . left ( 2 ) ;
QChar n1 = name [ name . size ( ) - 1 ] ;
if ( n0 = = " bb " & & n1 . isLetter ( ) ) {
done = true ;
//std::cout<<"found \\v... command\n";
nl - > addNode ( new MTinstruction1Node ( this , " mathbb " , new MTtextNode ( this , QString ( n1 ) , false , parsingMathEnvironment ) ) ) ;
}
}
if ( ! done ) nl - > addNode ( new MTsymbolNode ( this , name , false ) ) ; //, addWhite));
}
}
} else if ( currentToken = = MTTwhitespace ) {
if ( ! parsingMathEnvironment ) nl - > addNode ( new MTwhitespaceNode ( this ) ) ;
} else if ( currentToken = = MTTunderscore ) {
getToken ( ) ;
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MTnode * child = nullptr ;
MTnode * child2 = nullptr ;
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if ( currentToken = = MTTinstruction ) {
QString name = currentTokenName ;
getToken ( ) ; // look at next token
if ( currentToken = = MTTopenbrace ) {
child = new MTinstruction1Node ( this , name , parseLatexString ( true ) ) ;
} else {
//bool addWhite=(currentToken==MTTwhitespace);
//getNew=addWhite;
//child=new MTsymbolNode(this, name, addWhite);
getNew = false ;
child = new MTsymbolNode ( this , name , false ) ;
}
} else if ( currentToken = = MTTopenbrace ) {
child = parseLatexString ( true ) ;
} else if ( currentToken = = MTTtext ) {
if ( currentTokenName . size ( ) < = 1 ) {
child = new MTtextNode ( this , currentTokenName , false , parsingMathEnvironment ) ;
} else {
child = new MTtextNode ( this , QString ( currentTokenName [ 0 ] ) , false , parsingMathEnvironment ) ;
child2 = new MTtextNode ( this , currentTokenName . right ( currentTokenName . size ( ) - 1 ) , false , parsingMathEnvironment ) ;
}
} else {
getNew = false ;
}
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if ( child ! = nullptr ) nl - > addNode ( new MTsubscriptNode ( this , child ) ) ;
if ( child2 ! = nullptr ) nl - > addNode ( child2 ) ;
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} else if ( currentToken = = MTThat ) {
getToken ( ) ;
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MTnode * child = nullptr ;
MTnode * child2 = nullptr ;
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if ( currentToken = = MTTinstruction ) {
QString name = currentTokenName ;
getToken ( ) ; // look at next token
if ( currentToken = = MTTopenbrace ) {
child = new MTinstruction1Node ( this , name , parseLatexString ( true ) ) ;
} else {
//bool addWhite=(currentToken==MTTwhitespace);
//getNew=addWhite;
//child=new MTsymbolNode(this, name, addWhite);
getNew = false ;
child = new MTsymbolNode ( this , name , false ) ;
}
} else if ( currentToken = = MTTopenbrace ) {
child = parseLatexString ( true ) ;
} else if ( currentToken = = MTTtext ) {
if ( currentTokenName . size ( ) < = 1 ) {
child = new MTtextNode ( this , currentTokenName , false , parsingMathEnvironment ) ;
} else {
child = new MTtextNode ( this , QString ( currentTokenName [ 0 ] ) , false , parsingMathEnvironment ) ;
child2 = new MTtextNode ( this , currentTokenName . right ( currentTokenName . size ( ) - 1 ) , false , parsingMathEnvironment ) ;
}
} else {
getNew = false ;
}
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if ( child ! = nullptr ) nl - > addNode ( new MTsuperscriptNode ( this , child ) ) ;
if ( child2 ! = nullptr ) nl - > addNode ( child2 ) ;
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} else if ( currentToken = = MTTopenbrace ) {
nl - > addNode ( parseLatexString ( true ) ) ;
} else if ( currentToken = = MTTclosebrace ) {
break ;
} else if ( currentToken = = MTTampersand ) {
break ;
} else if ( currentToken = = MTTdollar ) {
if ( parsingMathEnvironment ) { // reached end of math environment
parsingMathEnvironment = false ;
break ;
} else { // starting math environment
parsingMathEnvironment = true ;
nl - > addNode ( new MTinstruction1Node ( this , " equation " , parseLatexString ( true ) ) ) ;
}
}
if ( getNew ) getToken ( ) ;
}
//std::cout<<" leaving parseLatexString()\n";
return nl ;
}
QList < JKQTmathText : : tbrData > JKQTmathText : : tbrs = QList < JKQTmathText : : tbrData > ( ) ;
QHash < JKQTmathText : : tbrDataH , QRectF > JKQTmathText : : tbrh = QHash < JKQTmathText : : tbrDataH , QRectF > ( ) ;
QRectF JKQTmathText : : getTBR ( const QFont & fm , const QString & text , QPaintDevice * pd )
{
JKQTmathText : : tbrDataH dh ( fm , text , pd ) ;
if ( pd ) {
if ( tbrh . contains ( dh ) ) return tbrh [ dh ] ;
/*for (int i=0; i<tbrs.size(); i++) {
if ( tbrs [ i ] . f = = fm & & tbrs [ i ] . text = = text & & ( tbrs [ i ] . ldpiX = = pd - > logicalDpiX ( ) & & tbrs [ i ] . ldpiY = = pd - > logicalDpiY ( ) & & tbrs [ i ] . pdpiX = = pd - > physicalDpiX ( ) & & tbrs [ i ] . pdpiY = = pd - > physicalDpiY ( ) ) ) {
//qDebug()<<" ### "<<fm<<pd<<tbrs[i].text<<tbrs[i].tbr;
return tbrs [ i ] . tbr ;
}
} */
} else {
//qDebug()<<"warning no pd";
}
tbrData d ( fm , text , pd ) ;
tbrs . append ( d ) ;
tbrh [ dh ] = d . tbr ;
//qDebug()<<"TBRs lits: "<<tbrs.size();
//qDebug()<<"+++ "<<fm<<pd<<d.text<<d.tbr;
return d . tbr ;
}
bool JKQTmathText : : parse ( QString text ) {
QString ntext = QString ( " \\ ; " ) + text + QString ( " \\ ; " ) ;
ntext = ntext . remove ( " \\ limits " ) ;
if ( parsedNode & & parseString = = ntext ) return true ;
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if ( parsedNode ! = nullptr ) delete parsedNode ;
if ( unparsedNode ! = nullptr ) delete unparsedNode ;
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parseString = ntext ;
currentTokenID = - 1 ;
currentToken = MTTnone ;
currentTokenName = " " ;
parsingMathEnvironment = false ;
error_list . clear ( ) ;
parsedNode = parseLatexString ( true ) ;
unparsedNode = new MTplainTextNode ( this , text , false ) ;
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return ( parsedNode ! = nullptr ) ;
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}
QSizeF JKQTmathText : : getSize ( QPainter & painter ) {
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if ( getTree ( ) ! = nullptr ) {
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double w = 0 , a = 0 , d = 0 , s = 0 ;
getSizeDetail ( painter , w , a , d , s ) ;
return QSizeF ( w , a + d ) ;
}
return QSizeF ( 0 , 0 ) ;
}
double JKQTmathText : : getDescent ( QPainter & painter ) {
double w = 0 , a = 0 , d = 0 , s = 0 ;
getSizeDetail ( painter , w , a , d , s ) ;
return d ;
}
double JKQTmathText : : getAscent ( QPainter & painter ) {
double w = 0 , a = 0 , d = 0 , s = 0 ;
getSizeDetail ( painter , w , a , d , s ) ;
return a ;
}
void JKQTmathText : : getSizeDetail ( QPainter & painter , double & width , double & ascent , double & descent , double & strikeoutPos ) {
width = 0 ;
ascent = 0 ;
descent = 0 ;
strikeoutPos = 0 ;
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if ( getTree ( ) ! = nullptr ) {
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MTenvironment ev ;
ev . color = fontColor ;
ev . fontSize = fontSize ;
double overallHeight = 0 ;
getTree ( ) - > getSize ( painter , ev , width , ascent , overallHeight , strikeoutPos ) ;
descent = overallHeight - ascent ;
ascent = ascent * 1.1 ;
descent = qMax ( ascent * 0.1 , descent * 1.1 ) ;
strikeoutPos = strikeoutPos * 1.1 ;
}
}
void JKQTmathText : : draw ( QPainter & painter , double x , double y , bool drawBoxes ) {
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if ( getTree ( ) ! = nullptr ) {
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MTenvironment ev ;
ev . color = fontColor ;
ev . fontSize = fontSize ;
getTree ( ) - > set_drawBoxes ( drawBoxes ) ;
getTree ( ) - > draw ( painter , x , y , ev ) ;
}
}
void JKQTmathText : : draw ( QPainter & painter , int flags , QRectF rect , bool drawBoxes ) {
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if ( getTree ( ) ! = nullptr ) {
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MTenvironment ev ;
ev . color = fontColor ;
ev . fontSize = fontSize ;
getTree ( ) - > set_drawBoxes ( drawBoxes ) ;
double width = 0 ;
double baselineHeight = 0 ;
double overallHeight = 0 , strikeoutPos = 0 ;
getTree ( ) - > getSize ( painter , ev , width , baselineHeight , overallHeight , strikeoutPos ) ;
// align left top
double x = rect . left ( ) ;
double y = rect . top ( ) + baselineHeight ;
// care for horizontal align
if ( ( flags & Qt : : AlignRight ) ! = 0 ) x = x + rect . width ( ) - width ;
else if ( ( flags & Qt : : AlignHCenter ) ! = 0 ) x = x + ( rect . width ( ) - width ) / 2.0 ;
// care for vertical align
if ( ( flags & Qt : : AlignBottom ) ! = 0 ) y = y + rect . height ( ) - overallHeight ;
else if ( ( flags & Qt : : AlignVCenter ) ! = 0 ) y = y + ( rect . height ( ) - overallHeight ) / 2.0 ;
// finally draw
getTree ( ) - > draw ( painter , x , y , ev ) ;
}
}
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JKQTmathText : : MTwhitespaceNode : : MTwhitespaceNode ( JKQTmathText * parent ) :
MTtextNode ( parent , " " , false , false )
{
}
JKQTmathText : : MTwhitespaceNode : : ~ MTwhitespaceNode ( )
{
}
QString JKQTmathText : : MTwhitespaceNode : : getTypeName ( ) const
{
return QLatin1String ( " MTwhitespaceNode( " ) + text + " ) " ;
}
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bool JKQTmathText : : MTwhitespaceNode : : toHtml ( QString & html , JKQTmathText : : MTenvironment /*currentEv*/ , JKQTmathText : : MTenvironment /*defaultEv*/ ) {
html = html + " " ;
return true ;
}
void JKQTmathText : : MTnode : : set_drawBoxes ( bool draw )
{
this - > drawBoxes = draw ;
}
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QString JKQTmathText : : MTnode : : getTypeName ( ) const
{
return " MTnode " ;
}
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QString JKQTmathText : : fracModeToString ( JKQTmathText : : MTfracMode mode )
{
switch ( mode ) {
case MTFMfrac :
return " frac " ;
case MTFMdfrac :
return " dfrac " ;
case MTFMtfrac :
return " tfrac " ;
case MTFMunderbrace :
return " underbrace " ;
case MTFMoverbrace :
return " overbrace " ;
case MTFMunderset :
return " underset " ;
case MTFMoverset :
return " overset " ;
case MTFMstackrel :
return " stackrel " ;
}
return " unknown " ;
}
QString JKQTmathText : : decorationToString ( JKQTmathText : : MTdecoration mode )
{
switch ( mode ) {
case MTDvec :
return " vec " ;
case MTDtilde :
return " tilde " ;
case MTDhat :
return " hat " ;
case MTDdot :
return " dot " ;
case MTDddot :
return " ddot " ;
case MTDbar :
return " bar " ;
case MTDarrow :
return " arrow " ;
case MTDoverline :
return " overline " ;
case MTDdoubleoverline :
return " double overline " ;
case MTDunderline :
return " underline " ;
case MTDdoubleunderline :
return " double underline " ;
}
return " unknown " ;
}
JKQTMathTextLabel : : JKQTMathTextLabel ( QWidget * parent ) :
QLabel ( parent )
{
m_mathText = new JKQTmathText ( this ) ;
m_mathText - > useXITS ( ) ;
m_mathText - > set_fontSize ( font ( ) . pointSizeF ( ) * 1.3 ) ;
lastText = " " ;
repaintDo = true ;
buffer = QPixmap ( ) ;
}
JKQTMathTextLabel : : ~ JKQTMathTextLabel ( )
{
}
JKQTmathText * JKQTMathTextLabel : : getMathText ( ) const
{
return m_mathText ;
}
void JKQTMathTextLabel : : setMath ( const QString & text , bool doRepaint )
{
if ( text ! = lastText | | doRepaint ) {
lastText = text ;
repaintDo = true ;
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internalPaint ( ) ;
update ( ) ;
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}
}
void JKQTMathTextLabel : : internalPaint ( )
{
//return;
//qDebug()<<"internalPaint "<<lastText<<repaintDo;
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//if (repaintDo) {
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QSizeF size ;
{
repaintDo = false ;
//qDebug()<<"internalPaint(): parse "<<m_mathText->parse(lastText)<<"\n "<<m_mathText->get_error_list().join("\n")<<"\n\n";
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if ( ! m_mathText - > parse ( lastText ) ) {
qDebug ( ) < < " JKQTMathTextLabel::internalPaint(): parse ' " < < lastText < < " ': " < < m_mathText - > parse ( lastText ) < < " \n " < < m_mathText - > get_error_list ( ) . join ( " \n " ) < < " \n \n " ;
}
if ( buffer . width ( ) < = 0 | | buffer . height ( ) < = 0 ) buffer = QPixmap ( 1000 , 100 ) ;
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//qDebug()<<"internalPaint(): buffer "<<buffer.size();
QPainter p ;
//qDebug()<<"internalPaint(): "<<p.begin(&buffer);
p . begin ( & buffer ) ;
p . setRenderHint ( QPainter : : Antialiasing ) ;
p . setRenderHint ( QPainter : : HighQualityAntialiasing ) ;
p . setRenderHint ( QPainter : : TextAntialiasing ) ;
size = m_mathText - > getSize ( p ) ;
p . end ( ) ;
}
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buffer = QPixmap ( qMax ( 32.0 , size . width ( ) * 1.2 ) , qMax ( 10.0 , size . height ( ) * 1.1 ) ) ;
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buffer . fill ( Qt : : transparent ) ;
{
//qDebug()<<"internalPaint(): "<<buffer.size()<<size;
QPainter p ;
//qDebug()<<"internalPaint(): "<<p.begin(&buffer);
p . begin ( & buffer ) ;
p . setRenderHint ( QPainter : : Antialiasing ) ;
p . setRenderHint ( QPainter : : HighQualityAntialiasing ) ;
p . setRenderHint ( QPainter : : TextAntialiasing ) ;
m_mathText - > draw ( p , alignment ( ) , QRectF ( QPointF ( 0 , 0 ) , size ) ) ;
p . end ( ) ;
}
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setPixmap ( buffer ) ;
//}
//qDebug()<<"internalPaint(): setPixmap";
QApplication : : processEvents ( ) ;
//qDebug()<<"internalPaint(): DONE";
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}
void JKQTMathTextLabel : : paintEvent ( QPaintEvent * event )
{
//QLabel::paintEvent(event);
//return;
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//qDebug()<<"paintEvent: "<<buffer.size();
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//QApplication::processEvents();
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QLabel : : paintEvent ( event ) ;
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//qDebug()<<"paintEvent DONE: "<<size();
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}
JKQTmathText : : tbrData : : tbrData ( const QFont & f , const QString & text , QPaintDevice * pd ) :
fm ( f , pd )
{
this - > text = text ;
this - > tbr = this - > fm . tightBoundingRect ( text ) ;
this - > f = f ;
//this->pd=pd;
if ( pd ) {
ldpiX = pd - > logicalDpiX ( ) ;
ldpiY = pd - > logicalDpiY ( ) ;
pdpiX = pd - > physicalDpiX ( ) ;
pdpiY = pd - > physicalDpiY ( ) ;
} else {
ldpiX = 0 ;
ldpiY = 0 ;
pdpiX = 0 ;
pdpiY = 0 ;
}
}
bool JKQTmathText : : tbrData : : operator = = ( const JKQTmathText : : tbrData & other ) const
{
return ldpiX = = other . ldpiX & & ldpiY = = other . ldpiY & & text = = other . text & & f = = other . f ;
}
JKQTmathText : : tbrDataH : : tbrDataH ( const QFont & f , const QString & text , QPaintDevice * pd )
{
this - > text = text ;
this - > f = f ;
if ( pd ) {
ldpiX = pd - > logicalDpiX ( ) ;
ldpiY = pd - > logicalDpiY ( ) ;
pdpiX = pd - > physicalDpiX ( ) ;
pdpiY = pd - > physicalDpiY ( ) ;
} else {
ldpiX = 0 ;
ldpiY = 0 ;
pdpiX = 0 ;
pdpiY = 0 ;
}
}
bool JKQTmathText : : tbrDataH : : operator = = ( const JKQTmathText : : tbrDataH & other ) const
{
return ldpiX = = other . ldpiX & & ldpiY = = other . ldpiY & & text = = other . text & & f = = other . f ;
}
JKQTmathText : : MTplainTextNode : : MTplainTextNode ( JKQTmathText * parent , QString text , bool addWhitespace , bool stripInnerWhitepace ) :
JKQTmathText : : MTtextNode ( parent , text , addWhitespace , stripInnerWhitepace )
{
}
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QString JKQTmathText : : MTplainTextNode : : getTypeName ( ) const
{ return QLatin1String ( " MTplainTextNode( " ) + text + " ) " ;
}
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QString JKQTmathText : : MTplainTextNode : : textTransform ( const QString & text , JKQTmathText : : MTenvironment /*currentEv*/ , bool /*forSize*/ )
{
return text ;
}
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void initJKQtMathTextResources ( )
{
Q_INIT_RESOURCE ( xits ) ;
}