/* Copyright (c) 2008-2018 Jan W. Krieger () 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 . */ #include "jkqtplotter/jkqtpbaseelements.h" #include "jkqtplotter/jkqtpbaseplotter.h" #include #include #include #include //#undef SHOW_JKQTPLOTTER_DEBUG //#define SHOW_JKQTPLOTTER_DEBUG JKQTPcoordinateAxis::JKQTPcoordinateAxis(JKQtBasePlotter* parent): QObject(parent) { this->parent=parent; autoLabelDigits=true; tickMode=def_tickMode=JKQTPLTMLinOrPower; axisPrefix=""; scaleSign=1; doUpdateScaling=true; axismin=-10; axismax=10; axisabsoultemin=-DBL_MAX/100.0; axisabsoultemax=DBL_MAX/100.0; axisMinWidth=-1; width=20; scale=0; offset=0; inverted=false; tickSpacing=0; tickSpacingLog=10; tickStart=0; labelDigits=3; autoAxisSpacing=def_autoAxisSpacing=true; logAxis=def_logAxis=false; minorTickLabelsEnabled=def_minorTickLabelsEnabled=false; minorTickLabelFullNumber=def_minorTickLabelFullNumber=true; logAxisBase=def_logAxisBase=10; userTickSpacing=def_userTickSpacing=1; userLogTickSpacing=def_userLogTickSpacing=10; tickLabelAngle=def_tickLabelAngle=0; labelType=def_labelType=JKQTPCALTexponent; axisLabel=""; QFont f=QApplication::font(); labelPosition=def_labelPosition=JKQTPlabelCenter; labelFont=def_labelFont=f.family(); //"Arial"; labelFontSize=def_labelFontSize=f.pointSizeF()+1; //12; tickLabelFont=def_tickLabelFont=f.family(); //"Arial"; tickLabelFontSize=def_tickLabelFontSize=f.pointSizeF(); //10; minorTickLabelFontSize=def_minorTickLabelFontSize=f.pointSizeF()*0.75; //10; tickTimeFormat=def_tickTimeFormat=QLocale().timeFormat(QLocale::NarrowFormat); tickDateFormat=def_tickDateFormat=QLocale().dateFormat(QLocale::NarrowFormat); tickDateTimeFormat=def_tickDateTimeFormat=QLocale().dateTimeFormat(QLocale::NarrowFormat); minTicks=def_minTicks=5; minorTicks=def_minorTicks=1; tickOutsideLength=def_tickOutsideLength=3; minorTickOutsideLength=def_minorTickOutsideLength=1.5; tickInsideLength=def_tickInsideLength=3; minorTickInsideLength=def_minorTickInsideLength=1.5; tickLabelDistance=def_tickLabelDistance=3; labelDistance=def_labelDistance=5; axisColor=def_axisColor=QColor("black"); showZeroAxis=def_showZeroAxis=true; drawMode1=def_drawMode1=JKQTPCADMcomplete; drawMode2=def_drawMode2=JKQTPCADMticks; minorTickWidth=def_minorTickWidth=1; tickWidth=def_tickWidth=1.5; lineWidth=def_lineWidth=1.5; lineWidthZeroAxis=def_lineWidthZeroAxis=1.5; gridColor=def_gridColor=QColor("gray"); gridWidth=def_gridWidth=0.75; gridStyle=def_gridStyle=Qt::DashLine; drawGrid=def_drawGrid=true; minorGridColor=def_minorGridColor=QColor("gray"); minorGridWidth=def_minorGridWidth=0.5; minorGridStyle=def_minorGridStyle=Qt::DotLine; drawMinorGrid=def_drawMinorGrid=false; paramsChanged=true; } JKQTPcoordinateAxis::~JKQTPcoordinateAxis() { } void JKQTPcoordinateAxis::set_parent(JKQtBasePlotter* parent) { this->parent=parent; QObject::setParent(parent); } void JKQTPcoordinateAxis::update_plot() { //if (paramsChanged) { calcPlotScaling(); parent->update_plot(); //} } JKQTmathText* JKQTPcoordinateAxis::get_parent_mathText() { return parent->get_mathText(); } #define JKQTPPROPERTYloadFromAxis(settings, param) this->param=settings->param void JKQTPcoordinateAxis::loadSettings(JKQTPcoordinateAxis* settings) { JKQTPPROPERTYloadFromAxis(settings, showZeroAxis); JKQTPPROPERTYloadFromAxis(settings, autoAxisSpacing); JKQTPPROPERTYloadFromAxis(settings, minorTickLabelsEnabled); JKQTPPROPERTYloadFromAxis(settings, logAxis); JKQTPPROPERTYloadFromAxis(settings, inverted); JKQTPPROPERTYloadFromAxis(settings, logAxisBase); JKQTPPROPERTYloadFromAxis(settings, userTickSpacing); JKQTPPROPERTYloadFromAxis(settings, userLogTickSpacing); JKQTPPROPERTYloadFromAxis(settings, minorTickWidth); JKQTPPROPERTYloadFromAxis(settings, tickWidth); JKQTPPROPERTYloadFromAxis(settings, lineWidth); JKQTPPROPERTYloadFromAxis(settings, lineWidthZeroAxis); JKQTPPROPERTYloadFromAxis(settings, axisLabel); JKQTPPROPERTYloadFromAxis(settings, labelFont); JKQTPPROPERTYloadFromAxis(settings, labelFontSize); JKQTPPROPERTYloadFromAxis(settings, tickLabelFont); JKQTPPROPERTYloadFromAxis(settings, tickLabelFontSize); JKQTPPROPERTYloadFromAxis(settings, minorTickLabelFontSize); JKQTPPROPERTYloadFromAxis(settings, minorTickLabelFullNumber); JKQTPPROPERTYloadFromAxis(settings, tickTimeFormat); JKQTPPROPERTYloadFromAxis(settings, tickDateFormat); JKQTPPROPERTYloadFromAxis(settings, tickDateTimeFormat); JKQTPPROPERTYloadFromAxis(settings, minTicks); JKQTPPROPERTYloadFromAxis(settings, minorTicks); JKQTPPROPERTYloadFromAxis(settings, tickOutsideLength); JKQTPPROPERTYloadFromAxis(settings, minorTickOutsideLength); JKQTPPROPERTYloadFromAxis(settings, tickInsideLength); JKQTPPROPERTYloadFromAxis(settings, minorTickInsideLength); JKQTPPROPERTYloadFromAxis(settings, tickLabelDistance); JKQTPPROPERTYloadFromAxis(settings, labelDistance); JKQTPPROPERTYloadFromAxis(settings, gridWidth); JKQTPPROPERTYloadFromAxis(settings, minorGridWidth); JKQTPPROPERTYloadFromAxis(settings, drawGrid); JKQTPPROPERTYloadFromAxis(settings, drawMinorGrid); JKQTPPROPERTYloadFromAxis(settings, labelPosition); JKQTPPROPERTYloadFromAxis(settings, labelType); JKQTPPROPERTYloadFromAxis(settings, axisColor); JKQTPPROPERTYloadFromAxis(settings, gridColor); JKQTPPROPERTYloadFromAxis(settings, minorGridColor); JKQTPPROPERTYloadFromAxis(settings, gridStyle); JKQTPPROPERTYloadFromAxis(settings, minorGridStyle); JKQTPPROPERTYloadFromAxis(settings, drawMode1); JKQTPPROPERTYloadFromAxis(settings, drawMode2); JKQTPPROPERTYloadFromAxis(settings, tickMode); paramsChanged=true; calcPlotScaling(); } void JKQTPcoordinateAxis::clearAxisTickLabels() { tickLabels.clear(); update_plot(); } void JKQTPcoordinateAxis::addAxisTickLabel(double x, QString label) { tickLabels.append(qMakePair(x, label)); update_plot(); } void JKQTPcoordinateAxis::addAxisTickLabels(const QVector &x, const QStringList &label) { for (int i=0; i &x, const QString *label) { for (int i=0; i0 && res[res.size()-1]=='0') { res=res.left(res.size()-1); } if (res.size()>0 && res[res.size()-1]==loc.decimalPoint()) res=res.left(res.size()-1); } return res; }; break; case JKQTPCALTexponent: { return QString(jkqtp_floattolatexstr(data, past_comma, remove_trail0, 1e-300, pow(10, -past_comma), pow(10, past_comma+1)).c_str()); }; break; case JKQTPCALTexponentCharacter: { return QString(jkqtp_floattounitstr(data, past_comma, remove_trail0).c_str()); }; break; case JKQTPCALTdate: { QDateTime dt; dt.setMSecsSinceEpoch(uint64_t(data)); return dt.toString(tickDateFormat); }; break; case JKQTPCALTtime: { QDateTime dt; dt.setMSecsSinceEpoch(uint64_t(data)); return dt.toString(tickTimeFormat); }; break; case JKQTPCALTdatetime: { QDateTime dt; dt.setMSecsSinceEpoch(uint64_t(data)); return dt.toString(tickDateTimeFormat); }; break; default: return QString(); break; } /* tickTimeFormat tickDateFormat tickDateTimeFormat **/ return QString(); } QString JKQTPcoordinateAxis::floattolabel(double data, int past_comma) { bool remove_trail0=true; QLocale loc=QLocale::system(); loc.setNumberOptions(QLocale::OmitGroupSeparator); if (labelType==JKQTPCALTdefault) { QString res=loc.toString(data, 'f', past_comma);//QString::number(data, 'f', past_comma); if (remove_trail0 && res.contains(QLocale::system().decimalPoint())) { while (res.size()>0 && res[res.size()-1]=='0') { res=res.left(res.size()-1); } if (res.size()>0 && res[res.size()-1]==loc.decimalPoint()) res=res.left(res.size()-1); } return res; } else if (labelType==JKQTPCALTexponent) return QString(jkqtp_floattolatexstr(data, past_comma, remove_trail0, 1e-300, pow(10, -past_comma), pow(10, past_comma+1)).c_str()); else if (labelType==JKQTPCALTexponentCharacter) return QString(jkqtp_floattounitstr(data, past_comma, remove_trail0).c_str()); return ""; } int JKQTPcoordinateAxis::calcLinearUnitDigits() { if (!autoLabelDigits) return labelDigits; int unitdigits=-1; double minval=tickStart; bool equals=true; /*for (int i=0; i<20; i++) { equals=equals || (floattolabel((minval+(double)i*tickSpacing), unitdigits)== floattolabel((minval+(double)(i+1)*tickSpacing), unitdigits)); }*/ while ((unitdigits<20) && equals) { unitdigits++; equals=false; for (int i=-10; i<10; i++) { QString l1=floattolabel((minval+(double)i*tickSpacing), unitdigits+2); QString l2=floattolabel((minval+(double)(i+1.0)*tickSpacing), unitdigits+2); //qDebug()<<"unitdigits="<axismax) { std::swap(axismin, axismax); } else if (axismax==axismin) { axismax=axismin+1.0; } if (isLogAxis()) { if (axismin<0) { if (axismax>0) axismin=axismax/(logAxisBase*logAxisBase); else axismin=1e-5; } if (axismax<=axismin) axismax=axismin*logAxisBase*logAxisBase; //if (axismax<0) axismax=pow(10.0, ceil(log10(axismax-axismin)+1.0)); if (axismin<=0) axismin=1e-5; if (axismax<=0) axismax=axismin+pow(10.0, (int)log10(axismin)); if (axismaxaxismax) { std::swap(axismin, axismax); } else if (axismax==axismin) { axismax=axismin+1.0; } // this is the x- and y-range spanned by the plot width=fabs(axismax-axismin); //qDebug()<<"calcPlotScaling():\n"; //qDebug()<<" width="<objectName()<<": inverted = "<objectName()<<": plotOffset = "<objectName()<<": plotWidth = "<0) { offset=plotOffset-log(axismin)/log(logAxisBase)*scale; } else { offset=plotOffset+log(axismax)/log(logAxisBase)*scale; } } else { scale=get_parent_plotwidth()/width; if (scaleSign>0) { offset=plotOffset-axismin*scale; } else { offset=plotOffset+axismax*scale; } } #ifdef SHOW_JKQTPLOTTER_DEBUG //qDebug()<objectName()<<": offset = "<objectName()<<": scale = "<objectName()<<": scaleSign = "<0 && fabs(amax-amin)axisabsoultemax) axismax=axisabsoultemax; if (axismin>axismax) { axismin=amax; axismax=amin; } if (isLogAxis()) { if (axismin<=0) axismin=1e-306; if (axismax<=0) axismax=1e-306; if (fabs(axismin-axismax)<1e-306) { axismax=10; axismin=0.1; } } if (axisMinWidth>0 && fabs(axismax-axismin)tickSpacing = __value; this->paramsChanged=true; update_plot(); } void JKQTPcoordinateAxis::set_axisMinWidth(double __value) { this->axisMinWidth = __value; this->paramsChanged=true; update_plot(); } void JKQTPcoordinateAxis::set_autoAxisSpacing(bool __value) { this->autoAxisSpacing = __value; this->paramsChanged=true; update_plot(); } void JKQTPcoordinateAxis::set_minorTickLabelsEnabled(bool __value) { this->minorTickLabelsEnabled = __value; this->paramsChanged=true; update_plot(); } void JKQTPcoordinateAxis::set_logAxis(bool __value) { this->logAxis = __value; this->paramsChanged=true; if (this->isLogAxis()) { if (axismin<0) axismin=pow(10.0, floor(log(axismax-axismin)/log(10.0)-1.0)); if (axismax<0) axismax=pow(10.0, floor(log(axismax-axismin)/log(10.0)+1.0)); } if (this->isLogAxis() && this->minorTicks==def_minorTicks) { this->minorTicks=9; } update_plot(); } void JKQTPcoordinateAxis::set_logAxisBase(double __value) { this->logAxisBase = __value; this->paramsChanged=true; update_plot(); } void JKQTPcoordinateAxis::set_userTickSpacing(double __value) { this->userTickSpacing = __value; this->paramsChanged=true; update_plot(); } void JKQTPcoordinateAxis::set_userLogTickSpacing(double __value) { this->userLogTickSpacing = __value; this->paramsChanged=true; update_plot(); } void JKQTPcoordinateAxis::set_labelType(JKQTPCAlabelType __value) { this->labelType = __value; this->paramsChanged=true; update_plot(); } void JKQTPcoordinateAxis::set_tickMode(JKQTPLabelTickMode __value) { this->tickMode = __value; this->paramsChanged=true; set_logAxis(this->logAxis); } void JKQTPcoordinateAxis::set_tickMode(int __value) { set_tickMode(JKQTPLabelTickMode(__value)); } void JKQTPcoordinateAxis::set_axisLabel(QString __value) { this->axisLabel = __value; this->paramsChanged=true; update_plot(); } void JKQTPcoordinateAxis::set_labelPosition(JKQTPlabelPosition __value) { this->labelPosition = __value; this->paramsChanged=true; update_plot(); } void JKQTPcoordinateAxis::set_labelFont(QString __value) { this->labelFont = __value; this->paramsChanged=true; update_plot(); } void JKQTPcoordinateAxis::set_labelFontSize(double __value) { this->labelFontSize = __value; this->paramsChanged=true; update_plot(); } void JKQTPcoordinateAxis::set_tickLabelFont(QString __value) { this->tickLabelFont = __value; this->paramsChanged=true; update_plot(); } void JKQTPcoordinateAxis::set_tickTimeFormat(QString __value) { this->tickTimeFormat = __value; this->paramsChanged=true; update_plot(); } void JKQTPcoordinateAxis::set_tickDateFormat(QString __value) { this->tickDateFormat = __value; this->paramsChanged=true; update_plot(); } void JKQTPcoordinateAxis::set_tickDateTimeFormat(QString __value) { this->tickDateTimeFormat = __value; this->paramsChanged=true; update_plot(); } void JKQTPcoordinateAxis::set_tickLabelFontSize(double __value) { this->tickLabelFontSize = __value; this->paramsChanged=true; update_plot(); } void JKQTPcoordinateAxis::set_minorTickLabelFontSize(double __value) { this->minorTickLabelFontSize = __value; this->paramsChanged=true; update_plot(); } void JKQTPcoordinateAxis::set_minorTickLabelFullNumber(bool __value) { this->minorTickLabelFullNumber = __value; this->paramsChanged=true; update_plot(); } void JKQTPcoordinateAxis::set_minTicks(unsigned int __value) { this->minTicks = __value; this->paramsChanged=true; update_plot(); } void JKQTPcoordinateAxis::set_minorTicks(unsigned int __value) { this->minorTicks = __value; this->paramsChanged=true; update_plot(); } void JKQTPcoordinateAxis::set_minorTicks(int __value) { this->minorTicks = qMax(int(0), __value); this->paramsChanged=true; update_plot(); } void JKQTPcoordinateAxis::set_tickOutsideLength(double __value) { this->tickOutsideLength = __value; this->paramsChanged=true; update_plot(); } void JKQTPcoordinateAxis::set_minorTickOutsideLength(double __value) { this->minorTickOutsideLength = __value; this->paramsChanged=true; update_plot(); } void JKQTPcoordinateAxis::set_tickInsideLength(double __value) { this->tickInsideLength = __value; this->paramsChanged=true; update_plot(); } void JKQTPcoordinateAxis::set_minorTickInsideLength(double __value) { this->minorTickInsideLength = __value; this->paramsChanged=true; update_plot(); } void JKQTPcoordinateAxis::set_axisColor(QColor __value) { this->axisColor = __value; this->paramsChanged=true; update_plot(); } void JKQTPcoordinateAxis::set_showZeroAxis(bool __value) { this->showZeroAxis = __value; this->paramsChanged=true; update_plot(); } void JKQTPcoordinateAxis::set_inverted(bool __value) { this->inverted = __value; this->paramsChanged=true; update_plot(); } void JKQTPcoordinateAxis::set_gridColor(QColor __value) { this->gridColor = __value; this->paramsChanged=true; update_plot(); } void JKQTPcoordinateAxis::set_minorGridColor(QColor __value) { this->minorGridColor = __value; this->paramsChanged=true; update_plot(); } void JKQTPcoordinateAxis::set_gridWidth(double __value) { this->gridWidth = __value; this->paramsChanged=true; update_plot(); } void JKQTPcoordinateAxis::set_gridStyle(Qt::PenStyle __value) { this->gridStyle = __value; this->paramsChanged=true; update_plot(); } void JKQTPcoordinateAxis::set_minorGridWidth(double __value) { this->minorGridWidth = __value; this->paramsChanged=true; update_plot(); } void JKQTPcoordinateAxis::set_minorGridStyle(Qt::PenStyle __value) { this->minorGridStyle = __value; this->paramsChanged=true; update_plot(); } void JKQTPcoordinateAxis::set_drawMode1(JKQTPCAdrawMode __value) { this->drawMode1 = __value; this->paramsChanged=true; update_plot(); } void JKQTPcoordinateAxis::set_drawMode2(JKQTPCAdrawMode __value) { this->drawMode2 = __value; this->paramsChanged=true; update_plot(); } void JKQTPcoordinateAxis::set_minorTickWidth(double __value) { this->minorTickWidth = __value; this->paramsChanged=true; update_plot(); } void JKQTPcoordinateAxis::set_tickWidth(double __value) { this->tickWidth = __value; this->paramsChanged=true; update_plot(); } void JKQTPcoordinateAxis::set_lineWidth(double __value) { this->lineWidth = __value; this->paramsChanged=true; update_plot(); } void JKQTPcoordinateAxis::set_lineWidthZeroAxis(double __value) { this->lineWidthZeroAxis = __value; this->paramsChanged=true; update_plot(); } void JKQTPcoordinateAxis::set_tickLabelDistance(double __value) { this->tickLabelDistance = __value; this->paramsChanged=true; update_plot(); } void JKQTPcoordinateAxis::set_labelDistance(double __value) { this->labelDistance = __value; this->paramsChanged=true; update_plot(); } void JKQTPcoordinateAxis::set_labelDigits(int __value) { this->labelDigits = __value; this->paramsChanged=true; this->autoLabelDigits=false; update_plot(); } void JKQTPcoordinateAxis::set_drawGrid(bool __value) { this->drawGrid = __value; this->paramsChanged=true; update_plot(); } void JKQTPcoordinateAxis::set_drawMinorGrid(bool __value) { this->drawMinorGrid = __value; this->paramsChanged=true; update_plot(); } void JKQTPcoordinateAxis::set_tickLabelAngle(double __value) { this->tickLabelAngle = __value; this->paramsChanged=true; update_plot(); } void JKQTPcoordinateAxis::setAbsoluteRange(double amin, double amax) { axisabsoultemin=amin; axisabsoultemax=amax; if (axisabsoultemin>axisabsoultemax) { axisabsoultemin=amax; axisabsoultemax=amin; } if (axisabsoultemin==axisabsoultemax) { axisabsoultemax=axisabsoultemin+1; } setRange(axismin, axismax); /*paramsChanged=true; calcPlotScaling(); update_plot();*/ } double JKQTPcoordinateAxis::getNextLabelDistance(double x) { if (tickMode==JKQTPLTMLinOrPower) { if (logAxis) { return x*tickSpacingLog; } else { return tickSpacing; } } else if (tickMode==JKQTPLTMLin) { return tickSpacing; } else if (tickMode==JKQTPLTMPower) { return x*tickSpacingLog; } return 0; } bool JKQTPcoordinateAxis::getNextLabel(double& x, QString& label, bool init) { //qDebug()<<"start JKQTPcoordinateAxis::getNextLabel("<=axismin && x<=axismax) { label=floattolabel(x); } return (x<=axismax); } else { if (init) { if (tickLabels.size()>0) { x=tickLabels[0].first; label=tickLabels[0].second; } return (tickLabels.size()>0); } else { for (int i=0; i=axismin && x<=axismax) { label=tickLabels[i+1].second; x=tickLabels[i+1].first; return true; } else { return false; } } } } } return false; } QSizeF JKQTPcoordinateAxis::getMaxTickLabelSize(JKQTPEnhancedPainter& painter, double* ascent, double* descent) { double w=0, h=0, a=0; calcPlotScaling(); double x=tickStart; QString label=""; getNextLabel(x, label, true); QFont f; f.setFamily(tickLabelFont); f.setPointSizeF(tickLabelFontSize*parent->get_fontSizeMultiplier()); QFontMetricsF fm(f); //get_parent_mathText()->set_fontSize(f.pointSizeF()); //get_parent_mathText()->set_fontRoman(f.family()); bool first=true; int cnt=0; while (getNextLabel(x, label, first) && cnt<50) { double width, ascent, descent, strikeoutPos; /*if (label.contains("\\") || label.contains("$") || label.contains("^") || label.contains("_")) { get_parent_mathText()->parse(label); get_parent_mathText()->getSizeDetail(painter, width, ascent, descent, strikeoutPos); } else { width=fm.width(label); ascent=fm.ascent(); descent=fm.descent(); strikeoutPos=fm.strikeOutPos(); }*/ parent->getTextSizeDetail(f, label, painter, width, ascent, descent, strikeoutPos); if (width>w) w=width; if (ascent+descent>h) h=ascent+descent; if (ascent>a) a=ascent; first=false; cnt++; } //qDebug()<<"getMaxTickLabelSize() = ["<get_plotHeight(); } double JKQTPverticalAxis::get_parent_plotoffset() const { return parent->get_iplotBorderTop(); } QSize JKQTPverticalAxis::getSize1(JKQTPEnhancedPainter& painter) { if (drawMode1==JKQTPCADMnone || drawMode1==JKQTPCADMline) return QSize(0, get_parent_plotwidth()); if (drawMode1==JKQTPCADMticks) return QSize(parent->pt2px(painter, tickOutsideLength), get_parent_plotwidth()); // find out the maximum width over all visible plot labels double tlwidth=getMaxTickLabelSize(painter).width(); if (drawMode1==JKQTPCADMticksAndLabels) return QSize(parent->pt2px(painter, tickOutsideLength+tickLabelDistance)+tlwidth, get_parent_plotwidth()); // find out size of axis label /*get_parent_mathText()->set_fontSize(labelFontSize*parent->get_fontSizeMultiplier()); get_parent_mathText()->set_fontRoman(labelFont); get_parent_mathText()->parse(axisLabel); double lwidth=get_parent_mathText()->getSize(painter).height();*/ double lwidth=parent->getTextSizeSize(labelFont, labelFontSize*parent->get_fontSizeMultiplier(), axisLabel, painter).height(); if (drawMode1==JKQTPCADMcomplete) return QSize(parent->pt2px(painter, tickOutsideLength+tickLabelDistance+labelDistance)+tlwidth+lwidth, get_parent_plotwidth()); return QSize(0,0); } QSize JKQTPverticalAxis::getSize2(JKQTPEnhancedPainter& painter) { if (drawMode2==JKQTPCADMnone || drawMode2==JKQTPCADMline) return QSize(0, get_parent_plotwidth()); if (drawMode2==JKQTPCADMticks) return QSize(parent->pt2px(painter, tickOutsideLength),get_parent_plotwidth()); // find out the maximum width over all visible plot labels double tlwidth=getMaxTickLabelSize(painter).width(); if (drawMode2==JKQTPCADMticksAndLabels) return QSize(parent->pt2px(painter, tickOutsideLength+tickLabelDistance)+tlwidth, get_parent_plotwidth()); // find out size of axis label /*get_parent_mathText()->set_fontSize(labelFontSize*parent->get_fontSizeMultiplier()); get_parent_mathText()->set_fontRoman(labelFont); get_parent_mathText()->parse(axisLabel); double lwidth=get_parent_mathText()->getSize(painter).height();*/ double lwidth=parent->getTextSizeSize(labelFont, labelFontSize*parent->get_fontSizeMultiplier(), axisLabel, painter).height(); if (drawMode2==JKQTPCADMcomplete) return QSize(parent->pt2px(painter, tickOutsideLength+tickLabelDistance+labelDistance)+tlwidth+lwidth, get_parent_plotwidth()); return QSize(0,0); } double JKQTPverticalAxis::get_parent_otheraxis_offset() const { return parent->x2p(parent->getXMin()); } double JKQTPverticalAxis::get_parent_otheraxis_width() const { return fabs(parent->x2p(parent->getXMax())-parent->x2p(parent->getXMin())); } bool JKQTPverticalAxis::get_parent_otheraxis_inverted() const { return parent->getXAxis()->get_inverted(); } void JKQTPverticalAxis::drawGrids(JKQTPEnhancedPainter& painter) { //qDebug()<<" start JKQTPverticalAxis::drawGrids("; painter.save(); QPen pg=painter.pen(); pg.setColor(gridColor); pg.setWidthF(qMax(JKQTPLOTTER_ABS_MIN_LINEWIDTH, parent->pt2px(painter, gridWidth*parent->get_lineWidthMultiplier()))); pg.setStyle(gridStyle); QPen pmg=painter.pen(); pmg.setColor(minorGridColor); pmg.setWidthF(qMax(JKQTPLOTTER_ABS_MIN_LINEWIDTH,parent->pt2px(painter, minorGridWidth*parent->get_lineWidthMultiplier()))); pmg.setStyle(minorGridStyle); //double top=x2p(axismax); //double bottom=x2p(axismin); double left=0; double right=0; if (get_parent_otheraxis_inverted()) { left=get_parent_otheraxis_offset()-get_parent_otheraxis_width();//; right=get_parent_otheraxis_offset();//; } else { left=get_parent_otheraxis_offset();//; right=get_parent_otheraxis_offset()+get_parent_otheraxis_width();//; } double x=tickStart; QString label=""; bool first=true; // loop through all labels, as they are at the major ticks, do not draw more than 200 labels (prevent hang ups) int cnt=0; QVector lines_pg; QVector lines_pmg; while (getNextLabel(x, label, first) && (cnt<200)) { double w=getNextLabelDistance(x); double mtdist=w/(double)(minorTicks+1); double xx=x2p(x); //qDebug()<<" tick @ x="<axismin) && (fabs(left-right)>0)) { QLineF l(left, xx, right, xx); if (l.length()>0) lines_pg.append(l);//painter.drawLine(l); } //qDebug()<<" 2"; //painter.setPen(pmg); //qDebug()<<" 3"; if ((tickLabels.size()<=0) && drawMinorGrid && (minorTicks>0) && (fabs(right-left)>0)) { //qDebug()<<" 3.1"; double mx=x+mtdist; //qDebug()<<" 3.2"; for (int i=0; i<(int)minorTicks; i++) { //qDebug()<<" 3.2.1"; double mxx=x2p(mx); //qDebug()<<" 3.2.2"; if ((mxaxismin) && (fabs(right-left)>0)) { QLineF l(left, mxx, right, mxx); if (l.length()>0) lines_pmg.append(l);//painter.drawLine(l); } //qDebug()<<" 3.2.3"; mx=mx+mtdist; //qDebug()<<" 3.2.4"; } } first=false; cnt++; } painter.setPen(pg); painter.drawLines(lines_pg); painter.setPen(pmg); painter.drawLines(lines_pmg); painter.restore(); //qDebug()<<" end JKQTPverticalAxis::drawGrids("; } void JKQTPverticalAxis::drawTickLabel1(JKQTPEnhancedPainter &painter, double xx, double yy, const QString& label, double fontSize) { get_parent_mathText()->set_fontSize(fontSize*parent->get_fontSizeMultiplier()); get_parent_mathText()->set_fontRoman(tickLabelFont); get_parent_mathText()->set_fontColor(axisColor); get_parent_mathText()->parse(label); double width, ascent, descent, strikeoutPos; get_parent_mathText()->getSizeDetail(painter, width, ascent, descent, strikeoutPos); if (drawMode1==JKQTPCADMticksAndLabels || drawMode1==JKQTPCADMcomplete) { double lx=xx-parent->pt2px(painter, minorTickOutsideLength+tickLabelDistance)-width; if (tickLabelAngle==90) { painter.save(); painter.translate(lx+width-1.25*strikeoutPos, yy-width/2.0); painter.rotate(tickLabelAngle); get_parent_mathText()->draw(painter, 0,0); painter.restore(); } else if (tickLabelAngle==-90) { painter.save(); painter.translate(lx+width-0.25*strikeoutPos, yy+width/2.0); painter.rotate(tickLabelAngle); get_parent_mathText()->draw(painter, 0,0); painter.restore(); } else if (tickLabelAngle!=0) { painter.save(); if (tickLabelAngle>0) { painter.translate(lx-strikeoutPos+(width)*(1.0-cos(fabs(tickLabelAngle)/180.0*M_PI)), yy+strikeoutPos-width*sin(fabs(tickLabelAngle)/180.0*M_PI)); painter.rotate(tickLabelAngle); } else { painter.translate(lx+strikeoutPos+(width-strikeoutPos)*(1.0-cos(fabs(tickLabelAngle)/180.0*M_PI)), yy+strikeoutPos+width*sin(fabs(tickLabelAngle)/180.0*M_PI)); painter.rotate(tickLabelAngle); } get_parent_mathText()->draw(painter, 0,0); painter.restore(); } else { get_parent_mathText()->draw(painter, lx, yy+strikeoutPos); } } } void JKQTPverticalAxis::drawTickLabel2(JKQTPEnhancedPainter &painter, double xx, double yy, const QString &label, double fontSize) { get_parent_mathText()->set_fontSize(fontSize*parent->get_fontSizeMultiplier()); get_parent_mathText()->set_fontRoman(tickLabelFont); get_parent_mathText()->set_fontColor(axisColor); get_parent_mathText()->parse(label); double width, ascent, descent, strikeoutPos; get_parent_mathText()->getSizeDetail(painter, width, ascent, descent, strikeoutPos); if (drawMode2==JKQTPCADMticksAndLabels || drawMode2==JKQTPCADMcomplete) { double lx=xx+parent->pt2px(painter, tickOutsideLength+tickLabelDistance); if (tickLabelAngle==90) { painter.save(); painter.translate(lx+descent, yy-width/2.0); painter.rotate(tickLabelAngle); get_parent_mathText()->draw(painter, 0,0); painter.restore(); } else if (tickLabelAngle==-90) { painter.save(); painter.translate(lx+ascent, yy+width/2.0); painter.rotate(tickLabelAngle); get_parent_mathText()->draw(painter, 0,0); painter.restore(); } else if (tickLabelAngle!=0) { painter.save(); double shiftx=0; if (tickLabelAngle>0) { shiftx=strikeoutPos*sin(fabs(tickLabelAngle)/180.0*M_PI); } else { } painter.translate(lx+shiftx, yy+strikeoutPos); painter.rotate(-tickLabelAngle); get_parent_mathText()->draw(painter, 0,0); painter.restore(); } else { get_parent_mathText()->draw(painter, lx, yy+strikeoutPos); } } } void JKQTPverticalAxis::drawAxes(JKQTPEnhancedPainter& painter) { // make shure all parameters are calculated correctly calcPlotScaling(); // determine pixel coordinates of important positions double top=x2p(axismax); double bottom=x2p(axismin); double left=0; double right=0; if (inverted) { qSwap(top, bottom); } if (get_parent_otheraxis_inverted()) { left=get_parent_otheraxis_offset()-get_parent_otheraxis_width();//; right=get_parent_otheraxis_offset();//; } else { left=get_parent_otheraxis_offset();//; right=get_parent_otheraxis_offset()+get_parent_otheraxis_width();//; } //qDebug()<<"JKQTPverticalAxis:"; //qDebug()<<" left="<pt2px(painter, lineWidth*parent->get_lineWidthMultiplier()))); pmain.setStyle(Qt::SolidLine); QPen ptick=pmain; ptick.setWidthF(qMax(JKQTPLOTTER_ABS_MIN_LINEWIDTH, parent->pt2px(painter, tickWidth*parent->get_lineWidthMultiplier()))); QPen pmtick=ptick; pmtick.setWidthF(qMax(JKQTPLOTTER_ABS_MIN_LINEWIDTH, parent->pt2px(painter, minorTickWidth*parent->get_lineWidthMultiplier()))); get_parent_mathText()->set_fontSize(tickLabelFontSize*parent->get_fontSizeMultiplier()); get_parent_mathText()->set_fontRoman(tickLabelFont); get_parent_mathText()->set_fontColor(axisColor); painter.setPen(pmain); // plot thick axis at y==0 if (showZeroAxis && (0>axismin) && (0pt2px(painter, lineWidthZeroAxis*parent->get_lineWidthMultiplier()))); painter.setPen(pmain1); QLineF l(left-parent->pt2px(painter, tickOutsideLength), x2p(0), right+parent->pt2px(painter, tickOutsideLength), x2p(0)); painter.drawLine(l); painter.setPen(pmain); } // draw thick axis lines, left and/or right if (drawMode1!=JKQTPCADMnone) { QLineF l(left, x2p(axismin), left, x2p(axismax)); painter.drawLine(l); } if (drawMode2!=JKQTPCADMnone) { QLineF l(right, x2p(axismin), right, x2p(axismax)); painter.drawLine(l); } // plot minor and major ticks + tick labels QSizeF labelMax=getMaxTickLabelSize(painter); double x=tickStart; QString label=""; bool first=true; // loop through all labels, as they are at the major ticks int cnt=0; QVector lines_ptick, lines_ptick2; QVector lines_pmtick, lines_pmtick2; while (getNextLabel(x, label, first) && cnt<200) { double mtdist=getNextLabelDistance(x)/(double)(minorTicks+1); double xleft=-1000000; double xx=x2p(x); //qDebug()<<" tick @ x="< "<=axismin) { QLineF l(xleft=left-parent->pt2px(painter, minorTickOutsideLength), mxx, left+parent->pt2px(painter, minorTickInsideLength), mxx); if (l.length()>0) lines_pmtick.append(l);//painter.drawLine(l); double val= mx/pow(logAxisBase,floor(log(mx)/log(logAxisBase))); if (minorTickLabelsEnabled) { if (minorTickLabelFullNumber) val=mx; QString minorlabel=floattolabel(val); drawTickLabel1(painter, left, mxx, minorlabel, minorTickLabelFontSize); //drawTickLabel2(painter, right, xx, minorlabel, minorTickLabelFontSize); } } mx=mx+mtdist; } } } if (drawMode2==JKQTPCADMticks || drawMode2==JKQTPCADMticksAndLabels || drawMode2==JKQTPCADMcomplete) { //painter.setPen(ptick); if (x<=axismax && x>=axismin) { QLineF l(right-parent->pt2px(painter, tickInsideLength), xx, right+parent->pt2px(painter, tickOutsideLength), xx); if (l.length()>0) lines_ptick2.append(l);//painter.drawLine(l); } //painter.setPen(pmtick); if ((tickLabels.size()<=0) && (minorTicks>0)) { double mx=x+mtdist; int minTickCnt=minorTicks; if (isLogAxis()) { if (mtdist>x) { mx=mtdist; } else { minTickCnt--; mx=2.0*mtdist; } } for (int i=0; i=axismin) { QLineF l(right-parent->pt2px(painter, minorTickInsideLength), mxx, xleft=(right+parent->pt2px(painter, minorTickOutsideLength)), mxx); if (l.length()>0) lines_pmtick2.append(l);//painter.drawLine(l); double val= mx/pow(logAxisBase,floor(log(mx)/log(logAxisBase))); if (minorTickLabelsEnabled) { if (minorTickLabelFullNumber) val=mx; QString minorlabel=floattolabel(val); //drawTickLabel1(painter, left, xx, minorlabel, minorTickLabelFontSize); drawTickLabel2(painter, xleft, mxx, minorlabel, minorTickLabelFontSize); } } mx=mx+mtdist; } } } if ((label!="") && (x<=axismax && x>=axismin) && (drawMode1==JKQTPCADMticksAndLabels || drawMode1==JKQTPCADMcomplete || drawMode2==JKQTPCADMticksAndLabels || drawMode2==JKQTPCADMcomplete)) { drawTickLabel1(painter, left, xx, label, tickLabelFontSize); drawTickLabel2(painter, right, xx, label, tickLabelFontSize); } first=false; cnt++; } painter.setPen(ptick); painter.drawLines(lines_ptick); painter.drawLines(lines_ptick2); painter.setPen(pmtick); painter.drawLines(lines_pmtick); painter.drawLines(lines_pmtick2); // plot axis label if (!axisLabel.isEmpty() && (drawMode1==JKQTPCADMcomplete)) { get_parent_mathText()->set_fontSize(labelFontSize*parent->get_fontSizeMultiplier()); get_parent_mathText()->set_fontRoman(labelFont); get_parent_mathText()->parse(axisLabel); double width, ascent, descent, strikeoutPos; get_parent_mathText()->getSizeDetail(painter, width, ascent, descent, strikeoutPos); QRect rect(0,0, get_parent_plotwidth(), ascent+descent);//plotBorderLeft-30); painter.save(); painter.translate(QPointF(left-parent->pt2px(painter, tickOutsideLength+tickLabelDistance+labelDistance)-descent-labelMax.width()-labelMax.height(), bottom)); painter.rotate(-90); //JKQTPEnhancedPainter::RenderHints h=painter.renderHints(); //painter.drawRect(rect); //painter.drawEllipse(-4, -4, 8, 8); switch(labelPosition) { case JKQTPlabelMax: get_parent_mathText()->draw(painter, Qt::AlignBottom|Qt::AlignRight, rect); break; case JKQTPlabelMin: get_parent_mathText()->draw(painter, Qt::AlignBottom|Qt::AlignLeft, rect); break; case JKQTPlabelCenter: get_parent_mathText()->draw(painter, Qt::AlignBottom|Qt::AlignHCenter, rect); break; } painter.resetTransform(); painter.restore(); } if (!axisLabel.isEmpty() && (drawMode2==JKQTPCADMcomplete)) { get_parent_mathText()->set_fontSize(labelFontSize*parent->get_fontSizeMultiplier()); get_parent_mathText()->set_fontRoman(labelFont); get_parent_mathText()->parse(axisLabel); QRect rect(0,0, get_parent_plotwidth(), get_parent_mathText()->getSize(painter).height());//plotBorderLeft-30); painter.save(); painter.translate(QPointF(right+parent->pt2px(painter, tickOutsideLength+tickLabelDistance+labelDistance)+labelMax.width(), bottom)); painter.rotate(-90); //JKQTPEnhancedPainter::RenderHints h=painter.renderHints(); //painter.drawRect(rect); //painter.drawEllipse(-4, -4, 8, 8); switch(labelPosition) { case JKQTPlabelMax: get_parent_mathText()->draw(painter, Qt::AlignBottom|Qt::AlignRight, rect); break; case JKQTPlabelMin: get_parent_mathText()->draw(painter, Qt::AlignBottom|Qt::AlignLeft, rect); break; case JKQTPlabelCenter: get_parent_mathText()->draw(painter, Qt::AlignBottom|Qt::AlignHCenter, rect); break; } //painter.resetTransform(); painter.restore(); } painter.restore(); //qDebug()<<" end JKQTPverticalAxis::drawAxes("; } JKQTPverticalIndependentAxis::JKQTPverticalIndependentAxis(double axisOffset, double axisWidth, double otherAxisOffset, double otherAxisWidth, JKQtBasePlotter* parent): JKQTPverticalAxis(parent) { this->axisOffset=axisOffset; this->axisWidth=axisWidth; this->otherAxisOffset=otherAxisOffset; this->otherAxisWidth=otherAxisWidth; this->otherAxisInverted=false; } void JKQTPverticalIndependentAxis::set_axisOffset(double __value) { this->axisOffset = __value; this->paramsChanged=true; update_plot(); } void JKQTPverticalIndependentAxis::set_axisWidth(double __value) { this->axisWidth = __value; this->paramsChanged=true; update_plot(); } void JKQTPverticalIndependentAxis::set_otherAxisOffset(double __value) { this->otherAxisOffset = __value; this->paramsChanged=true; update_plot(); } void JKQTPverticalIndependentAxis::set_otherAxisWidth(double __value) { this->otherAxisWidth = __value; this->paramsChanged=true; update_plot(); } void JKQTPverticalIndependentAxis::set_otherAxisInverted(bool __value) { this->otherAxisInverted = __value; this->paramsChanged=true; update_plot(); } JKQTPhorizontalAxis::JKQTPhorizontalAxis(JKQtBasePlotter* parent): JKQTPcoordinateAxis(parent) { //axisPrefix="xaxis_"; scaleSign=1; } double JKQTPhorizontalAxis::get_parent_plotwidth() const { return parent->get_plotWidth(); } double JKQTPhorizontalAxis::get_parent_plotoffset() const { return parent->get_iplotBorderLeft(); } QSize JKQTPhorizontalAxis::getSize1(JKQTPEnhancedPainter& painter) { if (drawMode1==JKQTPCADMnone || drawMode1==JKQTPCADMline) return QSize(get_parent_plotwidth(), 0); if (drawMode1==JKQTPCADMticks) return QSize(get_parent_plotwidth(), parent->pt2px(painter, tickOutsideLength)); // find out the maximum width over all visible plot labels double tlwidth=getMaxTickLabelSize(painter).height(); if (drawMode1==JKQTPCADMticksAndLabels) return QSize(get_parent_plotwidth(),parent->pt2px(painter, tickOutsideLength+tickLabelDistance)+tlwidth); // find out size of axis label /*get_parent_mathText()->set_fontSize(labelFontSize*parent->get_fontSizeMultiplier()); get_parent_mathText()->set_fontRoman(labelFont); get_parent_mathText()->parse(axisLabel); double lwidth=get_parent_mathText()->getSize(painter).height();*/ double lwidth=parent->getTextSizeSize(labelFont, labelFontSize*parent->get_fontSizeMultiplier(), axisLabel, painter).height(); if (drawMode1==JKQTPCADMcomplete) return QSize(get_parent_plotwidth(),parent->pt2px(painter, tickOutsideLength+tickLabelDistance+labelDistance)+tlwidth+lwidth); return QSize(0,0); } QSize JKQTPhorizontalAxis::getSize2(JKQTPEnhancedPainter& painter) { if (drawMode2==JKQTPCADMnone || drawMode2==JKQTPCADMline) return QSize(get_parent_plotwidth(), 0); if (drawMode2==JKQTPCADMticks) return QSize(get_parent_plotwidth(), parent->pt2px(painter, tickOutsideLength)); // find out the maximum width over all visible plot labels double tlwidth=getMaxTickLabelSize(painter).height(); if (drawMode2==JKQTPCADMticksAndLabels) return QSize(get_parent_plotwidth(),parent->pt2px(painter, tickOutsideLength+tickLabelDistance)+tlwidth); // find out size of axis label /*get_parent_mathText()->set_fontSize(labelFontSize*parent->get_fontSizeMultiplier()); get_parent_mathText()->set_fontRoman(labelFont); get_parent_mathText()->parse(axisLabel); double lwidth=get_parent_mathText()->getSize(painter).height();*/ double lwidth=parent->getTextSizeSize(labelFont, labelFontSize*parent->get_fontSizeMultiplier(), axisLabel, painter).height(); if (drawMode2==JKQTPCADMcomplete) return QSize(get_parent_plotwidth(),parent->pt2px(painter, tickOutsideLength+tickLabelDistance+labelDistance)+tlwidth+lwidth); return QSize(0,0); } double JKQTPhorizontalAxis::get_parent_otheraxis_offset() const { return parent->y2p(parent->getYMax()); } double JKQTPhorizontalAxis::get_parent_otheraxis_width() const { return fabs(parent->y2p(parent->getYMax())-parent->y2p(parent->getYMin())); } bool JKQTPhorizontalAxis::get_parent_otheraxis_inverted() const { return parent->getYAxis()->get_inverted(); } void JKQTPhorizontalAxis::drawGrids(JKQTPEnhancedPainter& painter) { painter.save(); //double right=x2p(axismax); //double left=x2p(axismin); double bottom=0; double top=0; if (get_parent_otheraxis_inverted()) { top=get_parent_otheraxis_offset()-get_parent_otheraxis_width();//; bottom=get_parent_otheraxis_offset();//; } else { top=get_parent_otheraxis_offset();//; bottom=get_parent_otheraxis_offset()+get_parent_otheraxis_width();//; } QPen pg=painter.pen(); pg.setColor(gridColor); pg.setWidthF(qMax(JKQTPLOTTER_ABS_MIN_LINEWIDTH, parent->pt2px(painter, gridWidth*parent->get_fontSizeMultiplier()))); pg.setStyle(gridStyle); QPen pmg=painter.pen(); pmg.setColor(minorGridColor); pmg.setWidthF(qMax(JKQTPLOTTER_ABS_MIN_LINEWIDTH, parent->pt2px(painter, minorGridWidth*parent->get_lineWidthMultiplier()))); pmg.setStyle(minorGridStyle); double x=tickStart; QString label=""; bool first=true; // loop through all labels, as they are at the major ticks int cnt=0; QVector lines_pg; QVector lines_pmg; while (getNextLabel(x, label, first) && cnt<200) { double mtdist=getNextLabelDistance(x)/(double)(minorTicks+1); double xx=x2p(x); //qDebug()<<" tick @ x="<pt2px(painter, lineWidth*parent->get_lineWidthMultiplier()))); pmain.setStyle(Qt::SolidLine); QPen ptick=pmain; ptick.setWidthF(qMax(JKQTPLOTTER_ABS_MIN_LINEWIDTH, parent->pt2px(painter, tickWidth*parent->get_lineWidthMultiplier()))); QPen pmtick=ptick; pmtick.setWidthF(qMax(JKQTPLOTTER_ABS_MIN_LINEWIDTH, parent->pt2px(painter, minorTickWidth*parent->get_lineWidthMultiplier()))); get_parent_mathText()->set_fontSize(tickLabelFontSize*parent->get_fontSizeMultiplier()); get_parent_mathText()->set_fontRoman(tickLabelFont); get_parent_mathText()->set_fontColor(axisColor); painter.setPen(pmain); // plot thick axis at y==0 if (showZeroAxis && (0>axismin) && (0pt2px(painter, tickOutsideLength), x2p(0), top-parent->pt2px(painter, tickOutsideLength)); painter.drawLine(l); } // draw thick axis lines, left and/or right if (drawMode1!=JKQTPCADMnone) { QLineF l(x2p(axismin), bottom, x2p(axismax), bottom); painter.drawLine(l); } if (drawMode2!=JKQTPCADMnone) { QLineF l(x2p(axismin), top, x2p(axismax), top); painter.drawLine(l); } // plot minor and major ticks + tick labels double ascentMax, descentMax; QSizeF labelMax=getMaxTickLabelSize(painter, &ascentMax, &descentMax); double x=tickStart; QString label=""; bool first=true; // loop through all labels, as they are at the major ticks int cnt=0; QVector lines_ptick, lines_ptick2; QVector lines_pmtick, lines_pmtick2; while (getNextLabel(x, label, first) && cnt<200) { double mtdist=getNextLabelDistance(x)/(double)(minorTicks+1); double xleft=-1000000; double xx=x2p(x); //qDebug()<<" tick @ x="<=axismin) && (drawMode1==JKQTPCADMticksAndLabels || drawMode1==JKQTPCADMcomplete || drawMode2==JKQTPCADMticksAndLabels || drawMode2==JKQTPCADMcomplete)) { drawTickLabel1(painter, xx, bottom, label, tickLabelFontSize, ascentMax, descentMax); drawTickLabel2(painter, xx, top, label, tickLabelFontSize, ascentMax, descentMax); /* get_parent_mathText()->parse(label); double width, ascent, descent, strikeoutPos; get_parent_mathText()->getSizeDetail(painter, width, ascent, descent, strikeoutPos); if (drawMode1==JKQTPCADMticksAndLabels || drawMode1==JKQTPCADMcomplete) { double lx0=bottom+parent->pt2px(painter, tickOutsideLength+tickLabelDistance); double lx=lx0+ascentMax; if (tickLabelAngle!=0) { painter.save(); if (tickLabelAngle>0) { painter.translate(xx-fabs(ascent*sin(tickLabelAngle/180.0*M_PI)/2.0), lx0+fabs(ascent*cos(tickLabelAngle/180.0*M_PI))); painter.rotate(tickLabelAngle); } else { painter.translate(xx+fabs(ascent*sin(fabs(tickLabelAngle)/180.0*M_PI)/2.0)-width*fabs(cos(fabs(tickLabelAngle)/180.0*M_PI)), lx0+ascent*fabs(cos(fabs(tickLabelAngle)/180.0*M_PI))+fabs(width*sin(fabs(tickLabelAngle)/180.0*M_PI))); painter.rotate(tickLabelAngle); } get_parent_mathText()->draw(painter, 0,0); painter.restore(); } else { get_parent_mathText()->draw(painter, xx-width/2.0, lx); } } if (drawMode2==JKQTPCADMticksAndLabels || drawMode2==JKQTPCADMcomplete) { double lx0=top-parent->pt2px(painter, tickOutsideLength+tickLabelDistance); double lx=lx0-descentMax; if (tickLabelAngle!=0) { painter.save(); if (tickLabelAngle>0) { painter.translate(xx+fabs(descent*sin(tickLabelAngle/180.0*M_PI)/2.0), lx0-fabs(descent*cos(tickLabelAngle/180.0*M_PI))); painter.rotate(-tickLabelAngle); } else { painter.translate(xx-fabs(descent*sin(fabs(tickLabelAngle)/180.0*M_PI)/2.0)-width*fabs(cos(fabs(tickLabelAngle)/180.0*M_PI)), lx0-descent*fabs(cos(fabs(tickLabelAngle)/180.0*M_PI))-fabs(width*sin(fabs(tickLabelAngle)/180.0*M_PI))); painter.rotate(-tickLabelAngle); } get_parent_mathText()->draw(painter, 0,0); painter.restore(); } else { get_parent_mathText()->draw(painter, xx-width/2.0, lx); } }*/ } first=false; cnt++; } painter.setPen(ptick); painter.drawLines(lines_ptick); painter.drawLines(lines_ptick2); painter.setPen(pmtick); painter.drawLines(lines_pmtick); painter.drawLines(lines_pmtick2); // plot axis label if (!axisLabel.isEmpty() && (drawMode1==JKQTPCADMcomplete)) { get_parent_mathText()->set_fontSize(labelFontSize*parent->get_fontSizeMultiplier()); get_parent_mathText()->set_fontRoman(labelFont); get_parent_mathText()->parse(axisLabel); double width, ascent, descent, strikeoutPos; get_parent_mathText()->getSizeDetail(painter, width, ascent, descent, strikeoutPos); QRect rect(0,0, get_parent_plotwidth(), ascent+descent);//plotBorderLeft-30); painter.save(); painter.translate(QPointF(left, bottom+parent->pt2px(painter, tickOutsideLength+tickLabelDistance+labelDistance)+labelMax.height())); //JKQTPEnhancedPainter::RenderHints h=painter.renderHints(); //painter.drawRect(rect); //painter.drawEllipse(-4, -4, 8, 8); switch(labelPosition) { case JKQTPlabelMax: get_parent_mathText()->draw(painter, Qt::AlignBottom|Qt::AlignRight, rect); break; case JKQTPlabelMin: get_parent_mathText()->draw(painter, Qt::AlignBottom|Qt::AlignLeft, rect); break; case JKQTPlabelCenter: get_parent_mathText()->draw(painter, Qt::AlignBottom|Qt::AlignHCenter, rect); break; } //painter.resetTransform(); painter.restore(); } if (!axisLabel.isEmpty() && (drawMode2==JKQTPCADMcomplete)) { get_parent_mathText()->set_fontSize(labelFontSize*parent->get_fontSizeMultiplier()); get_parent_mathText()->set_fontRoman(labelFont); get_parent_mathText()->parse(axisLabel); QRect rect(0,0, get_parent_plotwidth(), get_parent_mathText()->getSize(painter).height());//plotBorderLeft-30); painter.save(); painter.translate(QPointF(left, top-parent->pt2px(painter, tickOutsideLength+tickLabelDistance+labelDistance)-labelMax.height()-rect.height())); //JKQTPEnhancedPainter::RenderHints h=painter.renderHints(); //painter.drawRect(rect); //painter.drawEllipse(-4, -4, 8, 8); switch(labelPosition) { case JKQTPlabelMax: get_parent_mathText()->draw(painter, Qt::AlignBottom|Qt::AlignRight, rect); break; case JKQTPlabelMin: get_parent_mathText()->draw(painter, Qt::AlignBottom|Qt::AlignLeft, rect); break; case JKQTPlabelCenter: get_parent_mathText()->draw(painter, Qt::AlignBottom|Qt::AlignHCenter, rect); break; } //painter.resetTransform(); painter.restore(); } #ifdef SHOW_JKQTPLOTTER_DEBUG QPen mp=QPen(QColor("blue")); mp.setWidthF(3); painter.setPen(mp); painter.drawLine(QLineF(get_parent_plotoffset(), top, get_parent_plotoffset()+get_parent_plotwidth(), bottom)); painter.drawEllipse(QPointF(get_parent_plotoffset(), top), 5,5); #endif painter.restore(); } JKQTPhorizontalIndependentAxis::JKQTPhorizontalIndependentAxis(double axisOffset, double axisWidth, double otherAxisOffset, double otherAxisWidth, JKQtBasePlotter* parent): JKQTPhorizontalAxis(parent) { this->axisOffset=axisOffset; this->axisWidth=axisWidth; this->otherAxisOffset=otherAxisOffset; this->otherAxisWidth=otherAxisWidth; this->otherAxisInverted=false; } void JKQTPhorizontalIndependentAxis::set_axisOffset(double __value) { this->axisOffset = __value; this->paramsChanged=true; update_plot(); } void JKQTPhorizontalIndependentAxis::set_axisWidth(double __value) { this->axisWidth = __value; this->paramsChanged=true; update_plot(); } void JKQTPhorizontalIndependentAxis::set_otherAxisOffset(double __value) { this->otherAxisOffset = __value; this->paramsChanged=true; update_plot(); } void JKQTPhorizontalIndependentAxis::set_otherAxisWidth(double __value) { this->otherAxisWidth = __value; this->paramsChanged=true; update_plot(); } void JKQTPhorizontalIndependentAxis::set_otherAxisInverted(bool __value) { this->otherAxisInverted = __value; this->paramsChanged=true; update_plot(); } double JKQTPhorizontalIndependentAxis::get_parent_plotwidth() const { return axisWidth; } double JKQTPhorizontalIndependentAxis::get_parent_plotoffset() const { return axisOffset; } double JKQTPhorizontalIndependentAxis::get_parent_otheraxis_width() const { return otherAxisWidth; } bool JKQTPhorizontalIndependentAxis::get_parent_otheraxis_inverted() const { return otherAxisInverted; } double JKQTPhorizontalIndependentAxis::get_parent_otheraxis_offset() const { return otherAxisOffset; }