mirror of
https://github.com/jkriege2/JKQtPlotter.git
synced 2024-11-16 02:25:50 +08:00
497 lines
21 KiB
C++
497 lines
21 KiB
C++
/*
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Copyright (c) 2008-2022 Jan W. Krieger (<jan@jkrieger.de>)
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This software is free software: you can redistribute it and/or modify
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it under the terms of the GNU Lesser General Public License (LGPL) as published by
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the Free Software Foundation, either version 2.1 of the License, or
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(at your option) any later version.
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This program is distributed in the hope that it will be useful,
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but WITHOUT ANY WARRANTY; without even the implied warranty of
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MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
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GNU Lesser General Public License (LGPL) for more details.
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You should have received a copy of the GNU Lesser General Public License (LGPL)
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along with this program. If not, see <http://www.gnu.org/licenses/>.
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*/
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#include "jkqtmathtext/nodes/jkqtmathtextbracenode.h"
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#include "jkqtmathtext/jkqtmathtexttools.h"
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#include "jkqtmathtext/jkqtmathtext.h"
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#include "jkqtcommon/jkqtpcodestructuring.h"
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#include "jkqtcommon/jkqtpstringtools.h"
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#include <cmath>
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#include <QFontMetricsF>
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#include <QDebug>
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#include <QFontDatabase>
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#include <QFontInfo>
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#include <QApplication>
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#include <QFont>
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#include <QPainterPath>
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JKQTMathTextBraceNode::JKQTMathTextBraceNode(JKQTMathText* _parent, JKQTMathTextBraceType openbrace, JKQTMathTextBraceType closebrace, JKQTMathTextNode* child):
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JKQTMathTextSingleChildNode(child, _parent)
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{
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this->openbrace=openbrace;
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this->closebrace=closebrace;
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}
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JKQTMathTextBraceNode::~JKQTMathTextBraceNode() {
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}
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JKQTMathTextNodeSize JKQTMathTextBraceNode::getSizeInternal(QPainter& painter, JKQTMathTextEnvironment currentEv) const {
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return getSizeInternalAndBrace(painter, currentEv);
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}
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JKQTMathTextBraceNode::NodeSize JKQTMathTextBraceNode::getSizeInternalAndBrace(QPainter &painter, JKQTMathTextEnvironment currentEv) const
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{
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NodeSize s;
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const NodeSize childSize=getChild()->getSize(painter, currentEv);
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const QFontMetricsF fm(currentEv.getFont(parentMathText), painter.device());
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const double minChildHeight=fm.tightBoundingRect("l").height();
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double cAscentAboveStrike=0;
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double cDescentBelowStrike=0;
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cAscentAboveStrike=qMax(minChildHeight-childSize.strikeoutPos, childSize.baselineHeight-childSize.strikeoutPos);
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cDescentBelowStrike=qMax(childSize.strikeoutPos, childSize.getDescent()+childSize.strikeoutPos);
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//qDebug()<<"getSizeInternalAndBrace(): showOpeningBrace="<<showOpeningBrace<<", openbrace="<<openbrace<<", showClosingBrace="<<showClosingBrace<<", closebrace="<<closebrace;
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//qDebug()<<"getSizeInternalAndBrace(): child: baselineHeight="<<baselineHeight<<", strikeoutPos="<<strikeoutPos<<", overallHeight="<<overallHeight;
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//qDebug()<<"getSizeInternalAndBrace(): child: cAscentAboveStrike="<<cAscentAboveStrike<<", cDescentBelowStrike="<<cDescentBelowStrike;
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const double heightAboveBelowStrike=qMax(cAscentAboveStrike, cDescentBelowStrike);
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s.width=childSize.width;
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s.strikeoutPos=childSize.strikeoutPos;
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s.baselineHeight=childSize.strikeoutPos+heightAboveBelowStrike*parentMathText->getBraceFactor();
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s.overallHeight=2.0*heightAboveBelowStrike*parentMathText->getBraceFactor(); //fm.height();
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//qDebug()<<"getSizeInternalAndBrace(): heightAboveBelowStrike="<<heightAboveBelowStrike<<", baselineHeight="<<baselineHeight<<", overallHeight="<<overallHeight;
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calcBraceSizes(s, painter, currentEv, childSize);
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if (openbrace!=MTBTNone && openbrace!=MTBTAny) s.width+=s.openBraceWidth;
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if (closebrace!=MTBTNone && closebrace!=MTBTAny) s.width+=s.closeBraceWidth;
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return s;
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}
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double JKQTMathTextBraceNode::draw(QPainter& painter, double x, double y, JKQTMathTextEnvironment currentEv) const {
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//std::cout<<"drawing brace-node: '"<<openbrace.toStdString()<<"' ... '"<<closebrace.toStdString()<<"'\n";
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const NodeSize nodesize=getSizeInternalAndBrace(painter, currentEv);
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doDrawBoxes(painter, x, y, nodesize);
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const QFontMetricsF fm(currentEv.getFont(parentMathText), painter.device());
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const double lw=fm.lineWidth();
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double xnew=x;
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const QPen pold=painter.pen();
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QPen p=pold;
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p.setWidthF(lw);
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p.setColor(currentEv.color);
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p.setCapStyle(Qt::FlatCap);
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p.setJoinStyle(Qt::MiterJoin);
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painter.setPen(p);
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const double paren_fraction=0.75;
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const double absnorm_linewidth_factor=0.75;
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const double paren_topwidth=lw*0.75;
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const double paren_centerwidth=lw*1.75;
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const double angle_centerwidth=lw*1.55;
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{
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bool showOpeningBrace=true;
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const double xbrace1=xnew+lw*2.0;
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const double xbrace2=xnew+qMin(paren_fraction*nodesize.openBraceWidth, nodesize.openBraceWidth-lw);
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const double xbraceC=xnew+nodesize.openBraceWidth/2.0;
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if (openbrace==MTBTParenthesis) {
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QPainterPath path;
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const double y1=y+(nodesize.overallHeight-nodesize.baselineHeight);
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const double y2=y-nodesize.baselineHeight;
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const QPointF pb1(xbrace2-paren_topwidth/2.0, y1);
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const QPointF pbc1(xbrace1-paren_centerwidth/2.0, (y1+y2)/2.0+fabs(y1-y2)/6.0);
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const QPointF ptc1(xbrace1-paren_centerwidth/2.0, (y1+y2)/2.0-fabs(y1-y2)/6.0);
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const QPointF pt1(xbrace2-paren_topwidth/2.0, y2);
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const QPointF pt2(xbrace2+paren_topwidth/2.0, y2);
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const QPointF ptc2(xbrace1+paren_centerwidth/2.0, (y1+y2)/2.0-fabs(y1-y2)/6.0);
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const QPointF pbc2(xbrace1+paren_centerwidth/2.0, (y1+y2)/2.0+fabs(y1-y2)/6.0);
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const QPointF pb2(xbrace2+paren_topwidth/2.0, y1);
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path.moveTo(pb1);
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path.cubicTo(pbc1, ptc1, pt1);
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path.lineTo(pt2);
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path.cubicTo(ptc2, pbc2, pb2);
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path.closeSubpath();
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painter.fillPath(path, QBrush(currentEv.color, Qt::SolidPattern));
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/*painter.setPen("blue");
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painter.drawLine(pb1,pbc1);
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painter.drawLine(pt1,ptc1);
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painter.drawLine(pb2,pbc2);
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painter.drawLine(pt2,ptc2);*/
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} else if (openbrace==MTBTAngleBracket) {
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QPainterPath path;
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const double y1=y+(nodesize.overallHeight-nodesize.baselineHeight);
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const double y2=y-nodesize.baselineHeight;
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const double yc=(y1+y2)/2.0;
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const QPointF pb1(xbrace2-paren_topwidth/2.0, y1);
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const QPointF pc1(xbrace1-angle_centerwidth/2.0, yc);
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const QPointF pt1(xbrace2-paren_topwidth/2.0, y2);
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const QPointF pt2(xbrace2+paren_topwidth/2.0, y2);
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const QPointF pc2(xbrace1+angle_centerwidth/2.0, yc);
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const QPointF pb2(xbrace2+paren_topwidth/2.0, y1);
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path.moveTo(pb1);
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path.lineTo(pc1);
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path.lineTo(pt1);
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path.lineTo(pt2);
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path.lineTo(pc2);
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path.lineTo(pb2);
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path.closeSubpath();
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painter.fillPath(path, QBrush(currentEv.color, Qt::SolidPattern));
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} else if (openbrace==MTBTSquareBracket) {
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QPainterPath path;
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const double y1=y+(nodesize.overallHeight-nodesize.baselineHeight)-lw/2.0;
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const double y2=y-nodesize.baselineHeight+lw/2.0;
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path.moveTo(xbrace2, y1);
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path.lineTo(xbrace1, y1);
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path.lineTo(xbrace1, y2);
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path.lineTo(xbrace2, y2);
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painter.drawPath(path);
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} else if (openbrace==MTBTTopCorner) {
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QPainterPath path;
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const double dx=fabs(xbrace2-xbrace1);
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const double y1=y-nodesize.baselineHeight+lw/2.0;
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path.moveTo(xbrace2, y1);
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path.lineTo(xbrace1, y1);
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path.lineTo(xbrace1, y1+dx);
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painter.drawPath(path);
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} else if (openbrace==MTBTBottomCorner) {
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QPainterPath path;
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const double dx=fabs(xbrace2-xbrace1);
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const double y1=y+(nodesize.overallHeight-nodesize.baselineHeight)-lw/2.0;
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path.moveTo(xbrace2, y1);
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path.lineTo(xbrace1, y1);
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path.lineTo(xbrace1, y1-dx);
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painter.drawPath(path);
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} else if (openbrace==MTBTCurlyBracket) {
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const QPainterPath path=JKQTMathTextMakeHBracePath(0,0,nodesize.overallHeight, nodesize.openBraceWidth*paren_fraction, p.widthF());
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painter.save(); auto __finalpaint=JKQTPFinally([&painter]() {painter.restore();});
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painter.translate(xbraceC, y-nodesize.baselineHeight+nodesize.overallHeight/2.0);
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painter.rotate(90);
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QPen plocal=p;
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plocal.setWidthF(0.0001);
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painter.fillPath(path, QBrush(currentEv.color));
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} else if (openbrace==MTBTFloorBracket) {
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QPainterPath path;
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const double y1=y+(nodesize.overallHeight-nodesize.baselineHeight)-lw/2.0;
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const double y2=y-nodesize.baselineHeight;
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path.moveTo(xbrace2, y1);
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path.lineTo(xbrace1, y1);
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path.lineTo(xbrace1, y2);
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painter.drawPath(path);
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} else if (openbrace==MTBTCeilBracket) {
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QPainterPath path;
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const double y1=y+(nodesize.overallHeight-nodesize.baselineHeight);
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const double y2=y-nodesize.baselineHeight+lw/2.0;
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path.moveTo(xbrace1, y1);
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path.lineTo(xbrace1, y2);
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path.lineTo(xbrace2, y2);
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painter.drawPath(path);
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} else if (openbrace==MTBTSingleLine) {
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const double y1=y+(nodesize.overallHeight-nodesize.baselineHeight);
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const double y2=y-nodesize.baselineHeight;
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const QLineF l(xbraceC, y1, xbraceC, y2);
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QPen plocal=p;
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plocal.setWidthF(plocal.widthF()*absnorm_linewidth_factor);
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painter.setPen(plocal);
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if (l.length()>0) painter.drawLine(l);
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painter.setPen(p);
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} else if (openbrace==MTBTDoubleLine) {
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const double y1=y+(nodesize.overallHeight-nodesize.baselineHeight);
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const double y2=y-nodesize.baselineHeight;
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QPen plocal=p;
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plocal.setWidthF(plocal.widthF()*absnorm_linewidth_factor);
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painter.setPen(plocal);
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const QLineF l(xbraceC-lw, y1, xbraceC-lw, y2);
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if (l.length()>0) painter.drawLine(l);
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const QLineF l2(xbraceC+lw, y1, xbraceC+lw, y2);
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if (l2.length()>0) painter.drawLine(l2);
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painter.setPen(p);
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} else {
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showOpeningBrace=false;
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}
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if (showOpeningBrace) {
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xnew=xnew+nodesize.openBraceWidth;
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}
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}
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painter.setPen(pold);
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xnew= getChild()->draw(painter, xnew, y, currentEv);
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{
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bool showClosingBrace=true;
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const double xbrace1=qMax(xnew+nodesize.closeBraceWidth-paren_fraction*nodesize.closeBraceWidth, xnew+lw);
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const double xbrace2=xnew+nodesize.closeBraceWidth-lw*2.0;
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const double xbraceC=xnew+nodesize.closeBraceWidth/2.0;
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painter.setPen(p);
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if (closebrace==MTBTParenthesis) {
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QPainterPath path;
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const double y1=y+(nodesize.overallHeight-nodesize.baselineHeight);
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const double y2=y-nodesize.baselineHeight;
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const QPointF pb1(xbrace1-paren_topwidth/2.0, y1);
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const QPointF pbc1(xbrace2-paren_centerwidth/2.0, (y1+y2)/2.0+fabs(y1-y2)/6.0);
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const QPointF ptc1(xbrace2-paren_centerwidth/2.0, (y1+y2)/2.0-fabs(y1-y2)/6.0);
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const QPointF pt1(xbrace1-paren_topwidth/2.0, y2);
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const QPointF pt2(xbrace1+paren_topwidth/2.0, y2);
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const QPointF ptc2(xbrace2+paren_centerwidth/2.0, (y1+y2)/2.0-fabs(y1-y2)/6.0);
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const QPointF pbc2(xbrace2+paren_centerwidth/2.0, (y1+y2)/2.0+fabs(y1-y2)/6.0);
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const QPointF pb2(xbrace1+paren_topwidth/2.0, y1);
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path.moveTo(pb1);
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path.cubicTo(pbc1, ptc1, pt1);
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path.lineTo(pt2);
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path.cubicTo(ptc2, pbc2, pb2);
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path.closeSubpath();
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painter.fillPath(path, QBrush(currentEv.color, Qt::SolidPattern));
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/*painter.setPen("blue");
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painter.drawLine(pb1,pbc1);
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painter.drawLine(pt1,ptc1);
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painter.drawLine(pb2,pbc2);
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painter.drawLine(pt2,ptc2);*/
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} else if (closebrace==MTBTAngleBracket) {
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QPainterPath path;
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const double y1=y+(nodesize.overallHeight-nodesize.baselineHeight);
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const double y2=y-nodesize.baselineHeight;
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const double yc=(y1+y2)/2.0;
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const QPointF pb1(xbrace1-paren_topwidth/2.0, y1);
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const QPointF pc1(xbrace2-angle_centerwidth/2.0, yc);
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const QPointF pt1(xbrace1-paren_topwidth/2.0, y2);
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const QPointF pt2(xbrace1+paren_topwidth/2.0, y2);
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const QPointF pc2(xbrace2+angle_centerwidth/2.0, yc);
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const QPointF pb2(xbrace1+paren_topwidth/2.0, y1);
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path.moveTo(pb1);
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path.lineTo(pc1);
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path.lineTo(pt1);
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path.lineTo(pt2);
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path.lineTo(pc2);
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path.lineTo(pb2);
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path.closeSubpath();
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painter.fillPath(path, QBrush(currentEv.color, Qt::SolidPattern));
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} else if (closebrace==MTBTSquareBracket) {
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QPainterPath path;
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const double y1=y+(nodesize.overallHeight-nodesize.baselineHeight)-lw/2.0;
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const double y2=y-nodesize.baselineHeight+lw/2.0;
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path.moveTo(xbrace1, y1);
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path.lineTo(xbrace2, y1);
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path.lineTo(xbrace2, y2);
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path.lineTo(xbrace1, y2);
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painter.drawPath(path);
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} else if (closebrace==MTBTBottomCorner) {
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QPainterPath path;
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const double dx=fabs(xbrace1-xbrace2);
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const double y1=y+(nodesize.overallHeight-nodesize.baselineHeight)-lw/2.0;
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path.moveTo(xbrace1, y1);
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path.lineTo(xbrace2, y1);
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path.lineTo(xbrace2, y1-dx);
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painter.drawPath(path);
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} else if (closebrace==MTBTTopCorner) {
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QPainterPath path;
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const double dx=fabs(xbrace1-xbrace2);
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const double y1=y-nodesize.baselineHeight+lw/2.0;
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path.moveTo(xbrace1, y1);
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path.lineTo(xbrace2, y1);
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path.lineTo(xbrace2, y1+dx);
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painter.drawPath(path);
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} else if (closebrace==MTBTCurlyBracket) {
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const QPainterPath path=JKQTMathTextMakeHBracePath(0,0,nodesize.overallHeight, nodesize.closeBraceWidth*paren_fraction, p.widthF());
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painter.save(); auto __finalpaint=JKQTPFinally([&painter]() {painter.restore();});
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painter.translate(xbraceC, y-nodesize.baselineHeight+nodesize.overallHeight/2.0);
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painter.rotate(270);
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QPen plocal=p;
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plocal.setWidthF(0.0001);
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painter.fillPath(path, QBrush(currentEv.color));
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} else if (closebrace==MTBTFloorBracket) {
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QPainterPath path;
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const double y1=y+(nodesize.overallHeight-nodesize.baselineHeight)-lw/2.0;
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const double y2=y-nodesize.baselineHeight;
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path.moveTo(xbrace1, y1);
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path.lineTo(xbrace2, y1);
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path.lineTo(xbrace2, y2);
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painter.drawPath(path);
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} else if (closebrace==MTBTCeilBracket) {
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QPainterPath path;
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const double y1=y+(nodesize.overallHeight-nodesize.baselineHeight);
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const double y2=y-nodesize.baselineHeight+lw/2.0;
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path.moveTo(xbrace2, y1);
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path.lineTo(xbrace2, y2);
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path.lineTo(xbrace1, y2);
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painter.drawPath(path);
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} else if (closebrace==MTBTSingleLine) {
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const double y1=y+(nodesize.overallHeight-nodesize.baselineHeight);
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const double y2=y-nodesize.baselineHeight;
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const QLineF l(xbraceC, y1, xbraceC, y2);
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QPen plocal=p;
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plocal.setWidthF(plocal.widthF()*absnorm_linewidth_factor);
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painter.setPen(plocal);
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if (l.length()>0) painter.drawLine(l);
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painter.setPen(p);
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} else if (closebrace==MTBTDoubleLine) {
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const double y1=y+(nodesize.overallHeight-nodesize.baselineHeight);
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const double y2=y-nodesize.baselineHeight;
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const QLineF l(xbraceC-lw, y1, xbraceC-lw, y2);
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QPen plocal=p;
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plocal.setWidthF(plocal.widthF()*absnorm_linewidth_factor);
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painter.setPen(plocal);
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if (l.length()>0) painter.drawLine(l);
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const QLineF l2(xbraceC+lw, y1, xbraceC+lw, y2);
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if (l2.length()>0) painter.drawLine(l2);
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painter.setPen(p);
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} else {
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showClosingBrace=false;
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}
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painter.setPen(pold);
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if (showClosingBrace) {
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xnew=xnew+nodesize.closeBraceWidth;
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}
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}
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//qDebug()<<" ==> "<<bc<<fm.boundingRect(bc).width();
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return xnew;
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}
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bool JKQTMathTextBraceNode::toHtml(QString &html, JKQTMathTextEnvironment currentEv, JKQTMathTextEnvironment defaultEv) const {
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QString ob;
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QString cb;
|
|
if (openbrace==MTBTAngleBracket) ob="⟨";
|
|
else if (openbrace==MTBTFloorBracket) ob="⌊";
|
|
else if (openbrace==MTBTCeilBracket) ob="⌈";
|
|
else if (openbrace==MTBTParenthesis) ob="(";
|
|
else if (openbrace==MTBTSquareBracket) ob="[";
|
|
else if (openbrace==MTBTCurlyBracket) ob="{";
|
|
else if (openbrace==MTBTSingleLine) ob="|";
|
|
else if (openbrace==MTBTDoubleLine) ob="||";
|
|
else if (openbrace==MTBTTopCorner) ob="⌜";
|
|
else if (openbrace==MTBTBottomCorner) ob="⌞";
|
|
if (closebrace==MTBTAngleBracket) cb="⟩";
|
|
else if (closebrace==MTBTFloorBracket) cb="⌋";
|
|
else if (closebrace==MTBTCeilBracket) cb="⌉";
|
|
else if (closebrace==MTBTParenthesis) cb=")";
|
|
else if (closebrace==MTBTSquareBracket) cb="]";
|
|
else if (closebrace==MTBTCurlyBracket) cb="}";
|
|
else if (closebrace==MTBTSingleLine) cb="|";
|
|
else if (closebrace==MTBTDoubleLine) cb="||";
|
|
else if (closebrace==MTBTTopCorner) ob="⌝";
|
|
else if (closebrace==MTBTBottomCorner) ob="⌟";
|
|
|
|
|
|
html=html+ob;
|
|
|
|
bool ok=getChild()->toHtml(html, currentEv, defaultEv);
|
|
|
|
html=html+cb;
|
|
|
|
return ok;
|
|
}
|
|
|
|
QString JKQTMathTextBraceNode::getTypeName() const
|
|
{
|
|
return QLatin1String("MTbraceNode(")+JKQTMathTextBraceType2String(openbrace)+" "+JKQTMathTextBraceType2String(closebrace)+")";
|
|
}
|
|
|
|
JKQTMathTextBraceType JKQTMathTextBraceNode::getOpenbrace() const {
|
|
return this->openbrace;
|
|
}
|
|
|
|
JKQTMathTextBraceType JKQTMathTextBraceNode::getClosebrace() const {
|
|
return this->closebrace;
|
|
}
|
|
|
|
|
|
|
|
JKQTMathTextBraceNode::NodeSize::NodeSize():
|
|
JKQTMathTextNodeSize(),
|
|
openBraceWidth(0.0),
|
|
openBraceHeight(0.0),
|
|
closeBraceWidth(0.0),
|
|
closeBraceHeight(0.0)
|
|
{
|
|
|
|
}
|
|
|
|
JKQTMathTextBraceNode::NodeSize::NodeSize(const JKQTMathTextNodeSize &other):
|
|
JKQTMathTextNodeSize(other),
|
|
openBraceWidth(0.0),
|
|
openBraceHeight(0.0),
|
|
closeBraceWidth(0.0),
|
|
closeBraceHeight(0.0)
|
|
{
|
|
|
|
}
|
|
|
|
JKQTMathTextBraceNode::NodeSize &JKQTMathTextBraceNode::NodeSize::operator=(const JKQTMathTextNodeSize &other)
|
|
{
|
|
JKQTMathTextNodeSize::operator=(other);
|
|
openBraceWidth=0.0;
|
|
openBraceHeight=0.0;
|
|
closeBraceWidth=0.0;
|
|
closeBraceHeight=0.0;
|
|
return *this;
|
|
}
|
|
|
|
JKQTMathTextBraceNode::NodeSize &JKQTMathTextBraceNode::NodeSize::operator=(const NodeSize &other)
|
|
{
|
|
JKQTMathTextNodeSize::operator=(dynamic_cast<const JKQTMathTextNodeSize&>(other));
|
|
openBraceWidth=other.openBraceWidth;
|
|
openBraceHeight=other.openBraceHeight;
|
|
closeBraceWidth=other.closeBraceWidth;
|
|
closeBraceHeight=other.closeBraceHeight;
|
|
return *this;
|
|
}
|
|
|
|
JKQTMathTextBraceNode::NodeSize::NodeSize(const NodeSize &other):
|
|
JKQTMathTextNodeSize(dynamic_cast<const JKQTMathTextNodeSize&>(other)),
|
|
openBraceWidth(other.openBraceWidth),
|
|
openBraceHeight(other.openBraceHeight),
|
|
closeBraceWidth(other.closeBraceWidth),
|
|
closeBraceHeight(other.closeBraceHeight)
|
|
{
|
|
|
|
}
|
|
|
|
|
|
void JKQTMathTextBraceNode::calcBraceSizes(NodeSize& out, QPainter &painter, const JKQTMathTextEnvironment &ev, const JKQTMathTextNodeSize &childSize) const
|
|
{
|
|
const QFontMetricsF fm(ev.getFont(parentMathText), painter.device());
|
|
const QSizeF openBraceS=calcBraceSize(fm, openbrace, childSize);
|
|
const QSizeF closeBraceS=calcBraceSize(fm, closebrace, childSize);
|
|
out.openBraceWidth=openBraceS.width();
|
|
out.openBraceHeight=openBraceS.width();
|
|
out.closeBraceWidth=closeBraceS.width();
|
|
out.closeBraceHeight=closeBraceS.width();
|
|
}
|
|
|
|
QSizeF JKQTMathTextBraceNode::calcBraceSize(const QFontMetricsF &fm, JKQTMathTextBraceType bracetype, const JKQTMathTextNodeSize &childSize) const
|
|
{
|
|
double braceWidth=0.0;
|
|
double braceHeight=0.0;
|
|
const double lw=fm.lineWidth();
|
|
const double dblline_distance=2.0*lw;
|
|
braceHeight=childSize.overallHeight*parentMathText->getBraceFactor();
|
|
braceWidth=lw*5.0;
|
|
if (bracetype==MTBTCurlyBracket) braceWidth=lw*6.5;
|
|
if (bracetype==MTBTParenthesis) braceWidth=lw*6.0;
|
|
if (bracetype==MTBTDoubleLine) braceWidth=dblline_distance+3.0*lw;
|
|
if (bracetype==MTBTSingleLine) braceWidth=3.0*lw;
|
|
if (bracetype==MTBTSquareBracket || bracetype==MTBTCeilBracket || bracetype==MTBTFloorBracket) braceWidth=7.0*lw;
|
|
|
|
const double overSizeFactor=braceHeight/fm.height();
|
|
if (overSizeFactor>1.2) braceWidth=braceWidth*sqrt(overSizeFactor);
|
|
|
|
return QSizeF(braceWidth, braceHeight);
|
|
}
|