/* Copyright (c) 2008-2020 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 2.1 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/graphs/jkqtpboxplot.h" #include "jkqtplotter/jkqtpbaseplotter.h" #include #include #include #include "jkqtplotter/jkqtptools.h" #include "jkqtplotter/graphs/jkqtpimage.h" #include "jkqtplotter/jkqtpbaseelements.h" #include "jkqtplotter/jkqtplotter.h" #define SmallestGreaterZeroCompare_xvsgz() if ((xvsgz>10.0*DBL_MIN)&&((smallestGreaterZero<10.0*DBL_MIN) || (xvsgzgetPlotter()) { } void JKQTPBoxplotVerticalGraph::draw(JKQTPEnhancedPainter& painter) { #ifdef JKQTBP_AUTOTIMER JKQTPAutoOutputTimer jkaaot("JKQTPBoxplotVerticalGraph::draw"); #endif clearHitTestData(); if (parent==nullptr) return; JKQTPDatastore* datastore=parent->getDatastore(); if (datastore==nullptr) return; drawErrorsBefore(painter); int imax=static_cast(datastore->getRows(static_cast(posColumn))); int imin=0; if (imaxget(static_cast(posColumn),static_cast(i-1))); double xv=transformX(datastore->get(static_cast(posColumn),static_cast(i))); if (posColumn>=0 && JKQTPIsOKFloat(xv) && JKQTPIsOKFloat(xv0)) { if (bwfirst) { boxwidth_real=fabs(xv-xv0); bwfirst=false; } else { if (fabs(xv-xv0)>0) boxwidth_real=qMin(fabs(xv-xv0), boxwidth_real); } } } // 2. plot: { painter.save(); auto __finalpaint=JKQTPFinally([&painter]() {painter.restore();}); for (int i=imin; iget(posColumn,static_cast(i)); const double p25v=datastore->get(percentile25Column,static_cast(i)); const double p75v=datastore->get(percentile75Column,static_cast(i)); const double minv=datastore->get(minColumn,static_cast(i)); const double maxv=datastore->get(maxColumn,static_cast(i)); const double medianv=datastore->get(medianColumn,static_cast(i)); const double medConf=datastore->get(medianConfidenceColumn,static_cast(i)); const double meanv=datastore->get(meanColumn,static_cast(i)); if (posColumn>=0 && JKQTPIsOKFloat(xv) ) { // collect single-value labels for hitTest()-data at the bottom of this loop! QStringList labelValues, labelNames; int labMedian=-1, labMean=-1, labMin=-1, labMax=-1, labQ25=-1, labQ75=-1; labelNames<<"pos"; labelValues<=0 && JKQTPIsOKFloat(minv)) { labelNames<<"\\min"; labelValues<=0 && JKQTPIsOKFloat(p25v)) { labelNames<<"q_{25}"; labelValues<=0 && JKQTPIsOKFloat(medianv)) { if (medianConfidenceColumn>=0 && JKQTPIsOKFloat(medConf)) { labelNames<<"\\median"; labelValues<<(jkqtp_floattolatexqstr(medianv, 3)+"\\:{\\pm}\\:"+jkqtp_floattolatexqstr(medConf, 3)); labMedian=labelValues.size()-1; } else { labelNames<<"\\median"; labelValues<=0 && JKQTPIsOKFloat(meanv)) { labelNames<<"\\mu"; labelValues<=0 && JKQTPIsOKFloat(p75v)) { labelNames<<"q_{75}"; labelValues<=0 && JKQTPIsOKFloat(maxv)) { labelNames<<"\\max"; labelValues<0)?(boxwidth_real*getBoxWidthRelative()):parent->pt2px(painter,getBoxWidthAbsolute()); double xma=x+w/2.0; double xmi=x-w/2.0; plotVerticalBoxplot(parent, painter, x, xmi, xma, min, p25, median, p75, max, mean, medianu, mediano); // add hit-test graph points if (meanColumn>=0 && JKQTPIsOKFloat(meanv)) { QStringList sl=labelValues, sll=labelNames; sl[labMean]="\\ul{"+sl[labMean]+"}"; sll[labMean]="\\ul{"+sll[labMean]+"}"; addHitTestData(xv, meanv, i, "\\ensuremath{\\begin{bmatrix}"+sll.join("\\\\")+"\\end{bmatrix}\\;=\\;\\begin{bmatrix}"+sl.join("\\\\")+"\\end{bmatrix}}"); } if (medianColumn>=0 && JKQTPIsOKFloat(medianv)) { QStringList sl=labelValues, sll=labelNames; sl[labMedian]="\\ul{"+sl[labMedian]+"}"; sll[labMedian]="\\ul{"+sll[labMedian]+"}"; addHitTestData(xv, medianv, i, "\\ensuremath{\\begin{bmatrix}"+sll.join("\\\\")+"\\end{bmatrix}\\;=\\;\\begin{bmatrix}"+sl.join("\\\\")+"\\end{bmatrix}}"); } if (minColumn>=0 && JKQTPIsOKFloat(minv)) { QStringList sl=labelValues, sll=labelNames; sl[labMin]="\\ul{"+sl[labMin]+"}"; sll[labMin]="\\ul{"+sll[labMin]+"}"; addHitTestData(xv, minv, i, "\\ensuremath{\\begin{bmatrix}"+sll.join("\\\\")+"\\end{bmatrix}\\;=\\;\\begin{bmatrix}"+sl.join("\\\\")+"\\end{bmatrix}}"); } if (maxColumn>=0 && JKQTPIsOKFloat(maxv)) { QStringList sl=labelValues, sll=labelNames; sl[labMax]="\\ul{"+sl[labMax]+"}"; sll[labMax]="\\ul{"+sll[labMax]+"}"; addHitTestData(xv, maxv, i, "\\ensuremath{\\begin{bmatrix}"+sll.join("\\\\")+"\\end{bmatrix}\\;=\\;\\begin{bmatrix}"+sl.join("\\\\")+"\\end{bmatrix}}"); } if (percentile25Column>=0 && JKQTPIsOKFloat(p25v)) { QStringList sl=labelValues, sll=labelNames; sl[labQ25]="\\ul{"+sl[labQ25]+"}"; sll[labQ25]="\\ul{"+sll[labQ25]+"}"; addHitTestData(xv, p25v, i, "\\ensuremath{\\begin{bmatrix}"+sll.join("\\\\")+"\\end{bmatrix}\\;=\\;\\begin{bmatrix}"+sl.join("\\\\")+"\\end{bmatrix}}"); } if (percentile75Column>=0 && JKQTPIsOKFloat(p75v)) { QStringList sl=labelValues, sll=labelNames; sl[labQ75]="\\ul{"+sl[labQ75]+"}"; sll[labQ75]="\\ul{"+sll[labQ75]+"}"; addHitTestData(xv, p75v, i, "\\ensuremath{\\begin{bmatrix}"+sll.join("\\\\")+"\\end{bmatrix}\\;=\\;\\begin{bmatrix}"+sl.join("\\\\")+"\\end{bmatrix}}"); } //first=true; } } } drawErrorsAfter(painter); } bool JKQTPBoxplotVerticalGraph::getXMinMax(double& minx, double& maxx, double& smallestGreaterZero) { bool start=true; minx=0; maxx=0; smallestGreaterZero=0; if (posColumn<0) return false; if (parent==nullptr) return false; JKQTPDatastore* datastore=parent->getDatastore(); int imin=0; int imax=static_cast(datastore->getRows(static_cast(posColumn))); if (imaxget(posColumn,static_cast(i)); if (JKQTPIsOKFloat(xv)) { double xn=xv+1; if (i+1get(posColumn,i+1); else if (i-1>=0) xn=datastore->get(posColumn,i-1); else xn=xv+1; double delta=fabs(xn-xv); double w=delta*getBoxWidthRelative(); double xma=xv+w; double xmi=xv-w; if (start || xma>maxx) maxx=xma; if (start || xmigetDatastore(); int imin=0; int imax= static_cast(datastore->getRows(medianColumn)); if (imaxget(percentile25Column,i); double p75=datastore->get(percentile75Column,i); double min=datastore->get(minColumn,i); double max=datastore->get(maxColumn,i); double median=datastore->get(medianColumn,i); if (JKQTPIsOKFloat(median)) { if (start || median>maxy) maxy=median; if (start || medianmaxy) maxy=p25; if (JKQTPIsOKFloat(p25) &&p25maxy) maxy=p75; if (JKQTPIsOKFloat(p75) &&p75maxy) maxy=min; if (JKQTPIsOKFloat(min) &&minmaxy) maxy=max; if (JKQTPIsOKFloat(max) &&maxsortData = __value; } JKQTPBoxplotVerticalGraph::DataSortOrder JKQTPBoxplotVerticalGraph::getDataSortOrder() const { return this->sortData; } void JKQTPBoxplotVerticalGraph::setDataSortOrder(int __value) { sortData=static_cast(__value); if (__value>0) sortData=Sorted; } void JKQTPBoxplotVerticalGraph::setPositionColumn(int __value) { this->posColumn = __value; } int JKQTPBoxplotVerticalGraph::getPositionColumn() const { return this->posColumn; } void JKQTPBoxplotVerticalGraph::setPositionColumn(size_t __value) { this->posColumn = static_cast(__value); } void JKQTPBoxplotVerticalGraph::setMedianColumn(int __value) { this->medianColumn = __value; } int JKQTPBoxplotVerticalGraph::getMedianColumn() const { return this->medianColumn; } void JKQTPBoxplotVerticalGraph::setMedianColumn(size_t __value) { this->medianColumn = static_cast(__value); } void JKQTPBoxplotVerticalGraph::setMeanColumn(int __value) { this->meanColumn = __value; } int JKQTPBoxplotVerticalGraph::getMeanColumn() const { return this->meanColumn; } void JKQTPBoxplotVerticalGraph::setMeanColumn(size_t __value) { this->meanColumn = static_cast(__value); } void JKQTPBoxplotVerticalGraph::setMinColumn(int __value) { this->minColumn = __value; } int JKQTPBoxplotVerticalGraph::getMinColumn() const { return this->minColumn; } void JKQTPBoxplotVerticalGraph::setMinColumn(size_t __value) { this->minColumn = static_cast(__value); } void JKQTPBoxplotVerticalGraph::setMaxColumn(int __value) { this->maxColumn = __value; } int JKQTPBoxplotVerticalGraph::getMaxColumn() const { return this->maxColumn; } void JKQTPBoxplotVerticalGraph::setMaxColumn(size_t __value) { this->maxColumn = static_cast(__value); } void JKQTPBoxplotVerticalGraph::setPercentile25Column(int __value) { this->percentile25Column = __value; } int JKQTPBoxplotVerticalGraph::getPercentile25Column() const { return this->percentile25Column; } void JKQTPBoxplotVerticalGraph::setPercentile25Column(size_t __value) { this->percentile25Column = static_cast(__value); } void JKQTPBoxplotVerticalGraph::setPercentile75Column(int __value) { this->percentile75Column = __value; } int JKQTPBoxplotVerticalGraph::getPercentile75Column() const { return this->percentile75Column; } void JKQTPBoxplotVerticalGraph::setPercentile75Column(size_t __value) { this->percentile75Column = static_cast(__value); } int JKQTPBoxplotVerticalGraph::getMedianConfidenceColumn() const { return medianConfidenceColumn; } void JKQTPBoxplotVerticalGraph::setMedianConfidenceColumn(size_t __value) { medianConfidenceColumn=static_cast(__value); } void JKQTPBoxplotVerticalGraph::setBoxWidthRelative(double __value) { this->boxWidthRelative = __value; } double JKQTPBoxplotVerticalGraph::getBoxWidthRelative() const { return this->boxWidthRelative; } void JKQTPBoxplotVerticalGraph::setUseRelativeBoxWidth(bool __value) { useRelativeBoxWidth=__value; } bool JKQTPBoxplotVerticalGraph::getUseRelativeBoxWidth() const { return useRelativeBoxWidth; } void JKQTPBoxplotVerticalGraph::drawKeyMarker(JKQTPEnhancedPainter& painter, QRectF& rect) { plotVerticalKeyMarker(parent, painter, rect); } QColor JKQTPBoxplotVerticalGraph::getKeyLabelColor() const { return getLineColor(); } void JKQTPBoxplotVerticalGraph::setColor(QColor c) { setBoxplotColor(c, getParent()); } void JKQTPBoxplotHorizontalGraph::drawKeyMarker(JKQTPEnhancedPainter& painter, QRectF& rect) { plotHorizontalKeyMarker(parent, painter, rect); } bool JKQTPBoxplotHorizontalGraph::getXMinMax(double& miny, double& maxy, double& smallestGreaterZero) { bool start=true; miny=0; maxy=0; smallestGreaterZero=0; if (percentile25Column<0 && percentile75Column<0 && medianColumn<0 && minColumn<0 && maxColumn<0) return false; if (parent==nullptr) return false; JKQTPDatastore* datastore=parent->getDatastore(); int imin=0; int imax= static_cast(datastore->getRows(medianColumn)); if (imaxget(percentile25Column,i); double p75=datastore->get(percentile75Column,i); double min=datastore->get(minColumn,i); double max=datastore->get(maxColumn,i); double median=datastore->get(medianColumn,i); if (JKQTPIsOKFloat(median)) { if (start || median>maxy) maxy=median; if (start || medianmaxy) maxy=p25; if (JKQTPIsOKFloat(p25)&&p25maxy) maxy=p75; if (JKQTPIsOKFloat(p75)&&p75maxy) maxy=min; if (JKQTPIsOKFloat(min)&&minmaxy) maxy=max; if (JKQTPIsOKFloat(max)&&maxgetDatastore(); int imin=0; int imax=static_cast(datastore->getRows(static_cast(posColumn))); if (imaxget(posColumn,static_cast(i)); double xn=xv+1; if (i+1get(posColumn,i+1); else if (i-1>=0) xn=datastore->get(posColumn,i-1); else xn=xv+1; double delta=fabs(xn-xv); double w=delta*getBoxWidthRelative(); double xma=xv+w; double xmi=xv-w; if (JKQTPIsOKFloat(xma) && JKQTPIsOKFloat(xmi) ) { if (start || xma>maxx) maxx=xma; if (start || xmigetPlotter()) { } void JKQTPBoxplotHorizontalGraph::draw(JKQTPEnhancedPainter& painter) { #ifdef JKQTBP_AUTOTIMER JKQTPAutoOutputTimer jkaaot("JKQTPBoxplotHorizontalGraph::draw"); #endif if (parent==nullptr) return; JKQTPDatastore* datastore=parent->getDatastore(); if (datastore==nullptr) return; drawErrorsBefore(painter); int imax=static_cast(datastore->getRows(static_cast(posColumn))); int imin=0; if (imaxget(posColumn,i-1)); double xv=transformY(datastore->get(posColumn,i)); if (posColumn>=0 && JKQTPIsOKFloat(xv) && JKQTPIsOKFloat(xv0)) { if (bwfirst) { boxwidth_real=fabs(xv-xv0); bwfirst=false; } else { if (fabs(xv-xv0)>0) boxwidth_real=qMin(fabs(xv-xv0), boxwidth_real); } } } // 2. plot: { painter.save(); auto __finalpaint=JKQTPFinally([&painter]() {painter.restore();}); //bool first=false; for (int i=imin; iget(posColumn,static_cast(i)); const double p25v=datastore->get(percentile25Column,static_cast(i)); const double p75v=datastore->get(percentile75Column,static_cast(i)); const double minv=datastore->get(minColumn,static_cast(i)); const double maxv=datastore->get(maxColumn,static_cast(i)); const double medianv=datastore->get(medianColumn,static_cast(i)); const double meanv=datastore->get(meanColumn,static_cast(i)); const double medConf=datastore->get(medianConfidenceColumn,static_cast(i)); if (posColumn>=0 && JKQTPIsOKFloat(yv) ) { // collect single-value labels for hitTest()-data at the bottom of this loop! QStringList labelValues, labelNames; int labMedian=-1, labMean=-1, labMin=-1, labMax=-1, labQ25=-1, labQ75=-1; labelNames<<"pos"; labelValues<=0 && JKQTPIsOKFloat(minv)) { labelNames<<"\\min"; labelValues<=0 && JKQTPIsOKFloat(p25v)) { labelNames<<"q_{25}"; labelValues<=0 && JKQTPIsOKFloat(medianv)) { if (medianConfidenceColumn>=0 && JKQTPIsOKFloat(medConf)) { labelNames<<"\\median"; labelValues<<(jkqtp_floattolatexqstr(medianv, 3)+"\\:{\\pm}\\:"+jkqtp_floattolatexqstr(medConf, 3)); labMedian=labelValues.size()-1; } else { labelNames<<"\\median"; labelValues<=0 && JKQTPIsOKFloat(meanv)) { labelNames<<"\\mu"; labelValues<=0 && JKQTPIsOKFloat(p75v)) { labelNames<<"q_{75}"; labelValues<=0 && JKQTPIsOKFloat(maxv)) { labelNames<<"\\max"; labelValues<0)?(boxwidth_real*getBoxWidthRelative()):parent->pt2px(painter,getBoxWidthAbsolute()); double yma=y+w/2.0; double ymi=y-w/2.0; plotHorizontalBoxplot(parent, painter, y, ymi, yma, min, p25, median, p75, max, mean, medianu, mediano); // add hit-test graph points if (meanColumn>=0 && JKQTPIsOKFloat(meanv)) { QStringList sl=labelValues, sll=labelNames; sl[labMean]="\\ul{"+sl[labMean]+"}"; sll[labMean]="\\ul{"+sll[labMean]+"}"; addHitTestData(meanv, yv, i, "\\ensuremath{\\begin{bmatrix}"+sll.join("\\\\")+"\\end{bmatrix}\\;=\\;\\begin{bmatrix}"+sl.join("\\\\")+"\\end{bmatrix}}"); } if (medianColumn>=0 && JKQTPIsOKFloat(medianv)) { QStringList sl=labelValues, sll=labelNames; sl[labMedian]="\\ul{"+sl[labMedian]+"}"; sll[labMedian]="\\ul{"+sll[labMedian]+"}"; addHitTestData(medianv, yv, i, "\\ensuremath{\\begin{bmatrix}"+sll.join("\\\\")+"\\end{bmatrix}\\;=\\;\\begin{bmatrix}"+sl.join("\\\\")+"\\end{bmatrix}}"); } if (minColumn>=0 && JKQTPIsOKFloat(minv)) { QStringList sl=labelValues, sll=labelNames; sl[labMin]="\\ul{"+sl[labMin]+"}"; sll[labMin]="\\ul{"+sll[labMin]+"}"; addHitTestData(minv, yv, i, "\\ensuremath{\\begin{bmatrix}"+sll.join("\\\\")+"\\end{bmatrix}\\;=\\;\\begin{bmatrix}"+sl.join("\\\\")+"\\end{bmatrix}}"); } if (maxColumn>=0 && JKQTPIsOKFloat(maxv)) { QStringList sl=labelValues, sll=labelNames; sl[labMax]="\\ul{"+sl[labMax]+"}"; sll[labMax]="\\ul{"+sll[labMax]+"}"; addHitTestData(maxv, yv, i, "\\ensuremath{\\begin{bmatrix}"+sll.join("\\\\")+"\\end{bmatrix}\\;=\\;\\begin{bmatrix}"+sl.join("\\\\")+"\\end{bmatrix}}"); } if (percentile25Column>=0 && JKQTPIsOKFloat(p25v)) { QStringList sl=labelValues, sll=labelNames; sl[labQ25]="\\ul{"+sl[labQ25]+"}"; sll[labQ25]="\\ul{"+sll[labQ25]+"}"; addHitTestData(p25v, yv, i, "\\ensuremath{\\begin{bmatrix}"+sll.join("\\\\")+"\\end{bmatrix}\\;=\\;\\begin{bmatrix}"+sl.join("\\\\")+"\\end{bmatrix}}"); } if (percentile75Column>=0 && JKQTPIsOKFloat(p75v)) { QStringList sl=labelValues, sll=labelNames; sl[labQ75]="\\ul{"+sl[labQ75]+"}"; sll[labQ75]="\\ul{"+sll[labQ75]+"}"; addHitTestData(p75v, yv, i, "\\ensuremath{\\begin{bmatrix}"+sll.join("\\\\")+"\\end{bmatrix}\\;=\\;\\begin{bmatrix}"+sl.join("\\\\")+"\\end{bmatrix}}"); } } } } drawErrorsAfter(painter); } JKQTPBoxplotVerticalElement::JKQTPBoxplotVerticalElement(JKQTBasePlotter* parent): JKQTPGeometricPlotElement(DrawAsGraphicElement, parent) { pos=JKQTP_NAN; median=JKQTP_NAN; mean=JKQTP_NAN; min=JKQTP_NAN; max=JKQTP_NAN; drawMean=false; drawMinMax=false; percentile25=JKQTP_NAN; percentile75=JKQTP_NAN; medianConfidenceIntervalWidth=JKQTP_NAN; drawNotch=false; initBoxplotStyle(parent, parentPlotStyle); setMeanSymbolType(JKQTPPlus); } JKQTPBoxplotVerticalElement::JKQTPBoxplotVerticalElement(JKQTPlotter* parent): JKQTPBoxplotVerticalElement(parent->getPlotter()) { } void JKQTPBoxplotVerticalElement::draw(JKQTPEnhancedPainter& painter) { #ifdef JKQTBP_AUTOTIMER JKQTPAutoOutputTimer jkaaot("JKQTPBoxplotVerticalElement::draw"); #endif if (parent==nullptr) return; //drawErrorsBefore(painter); { painter.save(); auto __finalpaint=JKQTPFinally([&painter]() {painter.restore();}); const double xv=pos; const double p25v=percentile25; const double p75v=percentile75; const double minv=min; const double maxv=max; const double medianv=median; const double medConf=medianConfidenceIntervalWidth; const double meanv=mean; //std::cout<<"(xv, yv) = ( "<pt2px(painter,getBoxWidthAbsolute()); double xma=x+w/2.0; double xmi=x-w/2.0; plotVerticalBoxplot(parent, painter, x, xmi, xma, (drawMinMax)?min:JKQTP_NAN, p25, (drawMedian)?median:JKQTP_NAN, p75, (drawMinMax)?max:JKQTP_NAN, (drawMean)?mean:JKQTP_NAN, (drawMedian&&drawNotch)?medianu:JKQTP_NAN, (drawMedian&&drawNotch)?mediano:JKQTP_NAN); if (JKQTPIsOKFloat(p25v) && JKQTPIsOKFloat(p75v)) { if (JKQTPIsOKFloat(p25v)) { QStringList sl=labelValues, sll=labelNames; sl[labQ25]="\\ul{"+sl[labQ25]+"}"; sll[labQ25]="\\ul{"+sll[labQ25]+"}"; addHitTestData(xv, p25v, "\\ensuremath{\\begin{bmatrix}"+sll.join("\\\\")+"\\end{bmatrix}\\;=\\;\\begin{bmatrix}"+sl.join("\\\\")+"\\end{bmatrix}}"); } if (JKQTPIsOKFloat(p75v)) { QStringList sl=labelValues, sll=labelNames; sl[labQ75]="\\ul{"+sl[labQ75]+"}"; sll[labQ75]="\\ul{"+sll[labQ75]+"}"; addHitTestData(xv, p75v, "\\ensuremath{\\begin{bmatrix}"+sll.join("\\\\")+"\\end{bmatrix}\\;=\\;\\begin{bmatrix}"+sl.join("\\\\")+"\\end{bmatrix}}"); } } if (drawMedian && JKQTPIsOKFloat(medianv)) { if (JKQTPIsOKFloat(medianv)) { QStringList sl=labelValues, sll=labelNames; sl[labMedian]="\\ul{"+sl[labMedian]+"}"; sll[labMedian]="\\ul{"+sll[labMedian]+"}"; addHitTestData(xv, medianv, "\\ensuremath{\\begin{bmatrix}"+sll.join("\\\\")+"\\end{bmatrix}\\;=\\;\\begin{bmatrix}"+sl.join("\\\\")+"\\end{bmatrix}}"); } } if (drawMinMax) { if (JKQTPIsOKFloat(minv)) { QStringList sl=labelValues, sll=labelNames; sl[labMin]="\\ul{"+sl[labMin]+"}"; sll[labMin]="\\ul{"+sll[labMin]+"}"; addHitTestData(xv, minv, "\\ensuremath{\\begin{bmatrix}"+sll.join("\\\\")+"\\end{bmatrix}\\;=\\;\\begin{bmatrix}"+sl.join("\\\\")+"\\end{bmatrix}}"); } if (JKQTPIsOKFloat(maxv)) { QStringList sl=labelValues, sll=labelNames; sl[labMax]="\\ul{"+sl[labMax]+"}"; sll[labMax]="\\ul{"+sll[labMax]+"}"; addHitTestData(xv, maxv, "\\ensuremath{\\begin{bmatrix}"+sll.join("\\\\")+"\\end{bmatrix}\\;=\\;\\begin{bmatrix}"+sl.join("\\\\")+"\\end{bmatrix}}"); } } if (drawMean && JKQTPIsOKFloat(meanv)) { if (JKQTPIsOKFloat(meanv)) { QStringList sl=labelValues, sll=labelNames; sl[labMean]="\\ul{"+sl[labMean]+"}"; sll[labMean]="\\ul{"+sll[labMean]+"}"; addHitTestData(xv, meanv, "\\ensuremath{\\begin{bmatrix}"+sll.join("\\\\")+"\\end{bmatrix}\\;=\\;\\begin{bmatrix}"+sl.join("\\\\")+"\\end{bmatrix}}"); } } } } //drawErrorsAfter(painter); } bool JKQTPBoxplotVerticalElement::getXMinMax(double& minx, double& maxx, double& smallestGreaterZero) { minx=0; maxx=0; smallestGreaterZero=0; if (parent==nullptr) return false; double xv=pos; double w=0; double xma=xv+w; double xmi=xv-w; maxx=xma; minx=xmi; double xvsgz; xvsgz=xmi; SmallestGreaterZeroCompare_xvsgz(); xvsgz=xma; SmallestGreaterZeroCompare_xvsgz(); return true; } bool JKQTPBoxplotVerticalElement::getYMinMax(double& miny, double& maxy, double& smallestGreaterZero) { miny=0; maxy=0; smallestGreaterZero=0; if (parent==nullptr) return false ; double p25=percentile25; double p75=percentile75; if (drawMedian) { maxy=median; miny=median; } else { maxy=p75; miny=p25; } if (p25>maxy) maxy=p25; if (p25maxy) maxy=p75; if (p75maxy) maxy=min; if (drawMinMax && (minmaxy)) maxy=max; if (drawMinMax && (maxpos = __value; } double JKQTPBoxplotVerticalElement::getPos() const { return this->pos; } void JKQTPBoxplotVerticalElement::setMedian(double __value) { if (this->median != __value) { this->median = __value; drawMedian=true; } } double JKQTPBoxplotVerticalElement::getMedian() const { return this->median; } void JKQTPBoxplotVerticalElement::setMedianConfidenceIntervalWidth(double __value) { if (this->medianConfidenceIntervalWidth != __value) { this->medianConfidenceIntervalWidth = __value; drawNotch=true; } } double JKQTPBoxplotVerticalElement::getMedianConfidenceIntervalWidth() const { return this->medianConfidenceIntervalWidth; } void JKQTPBoxplotVerticalElement::setMean(double __value) { if (this->mean != __value) { this->mean = __value; drawMean=true; } } double JKQTPBoxplotVerticalElement::getMean() const { return this->mean; } void JKQTPBoxplotVerticalElement::setMin(double __value) { if (this->min != __value) { this->min = __value; drawMinMax=true; } } double JKQTPBoxplotVerticalElement::getMin() const { return this->min; } void JKQTPBoxplotVerticalElement::setMax(double __value) { if (this->max != __value) { this->max = __value; drawMinMax=true; } } double JKQTPBoxplotVerticalElement::getMax() const { return this->max; } void JKQTPBoxplotVerticalElement::setPercentile25(double __value) { this->percentile25 = __value; } double JKQTPBoxplotVerticalElement::getPercentile25() const { return this->percentile25; } void JKQTPBoxplotVerticalElement::setPercentile75(double __value) { this->percentile75 = __value; } double JKQTPBoxplotVerticalElement::getPercentile75() const { return this->percentile75; } void JKQTPBoxplotVerticalElement::setDrawMean(bool __value) { this->drawMean = __value; } bool JKQTPBoxplotVerticalElement::getDrawMean() const { return this->drawMean; } void JKQTPBoxplotVerticalElement::setDrawMedian(bool __value) { this->drawMedian = __value; } bool JKQTPBoxplotVerticalElement::getDrawMedian() const { return this->drawMedian; } void JKQTPBoxplotVerticalElement::setDrawMinMax(bool __value) { this->drawMinMax = __value; } bool JKQTPBoxplotVerticalElement::getDrawMinMax() const { return this->drawMinMax; } void JKQTPBoxplotVerticalElement::setDrawNotch(bool __value) { drawNotch=__value; } bool JKQTPBoxplotVerticalElement::getDrawNotch() const { return drawNotch; } void JKQTPBoxplotVerticalElement::drawKeyMarker(JKQTPEnhancedPainter& painter, QRectF& rect) { plotVerticalKeyMarker(parent, painter, rect); } QColor JKQTPBoxplotVerticalElement::getKeyLabelColor() const { return getLineColor(); } void JKQTPBoxplotVerticalElement::setColor(QColor c) { setBoxplotColor(c, getParent()); } void JKQTPBoxplotHorizontalElement::drawKeyMarker(JKQTPEnhancedPainter& painter, QRectF& rect) { plotHorizontalKeyMarker(parent, painter, rect); } bool JKQTPBoxplotHorizontalElement::getXMinMax(double& minx, double& maxx, double& smallestGreaterZero) { minx=0; maxx=0; smallestGreaterZero=0; if (parent==nullptr) return false; double p25=percentile25; double p75=percentile75; if (drawMedian) { maxx=median; minx=median; } else { maxx=p75; minx=p25; } if (p25>maxx) maxx=p25; if (p25maxx) maxx=p75; if (p75maxx) maxx=min; if (drawMinMax && (minmaxx)) maxx=max; if (drawMinMax && (maxgetPlotter()) { } void JKQTPBoxplotHorizontalElement::draw(JKQTPEnhancedPainter& painter) { #ifdef JKQTBP_AUTOTIMER JKQTPAutoOutputTimer jkaaot("JKQTPBoxplotHorizontalElement::draw"); #endif if (parent==nullptr) return; //drawErrorsBefore(painter); { painter.save(); auto __finalpaint=JKQTPFinally([&painter]() {painter.restore();}); const double yv=pos; const double p25v=percentile25; const double p75v=percentile75; const double minv=min; const double maxv=max; const double medianv=median; const double medConf=medianConfidenceIntervalWidth; const double meanv=mean; //std::cout<<"(xv, yv) = ( "<pt2px(painter,getBoxWidthAbsolute()); double yma=y+w/2.0; double ymi=y-w/2.0; plotHorizontalBoxplot(parent, painter, y, ymi, yma, (drawMinMax)?min:JKQTP_NAN, p25, (drawMedian)?median:JKQTP_NAN, p75, (drawMinMax)?max:JKQTP_NAN, (drawMean)?mean:JKQTP_NAN, (drawMedian&&drawNotch)?medianu:JKQTP_NAN, (drawMedian&&drawNotch)?mediano:JKQTP_NAN); if (JKQTPIsOKFloat(p25v) && JKQTPIsOKFloat(p75v)) { if (JKQTPIsOKFloat(p25v)) { QStringList sl=labelValues, sll=labelNames; sl[labQ25]="\\ul{"+sl[labQ25]+"}"; sll[labQ25]="\\ul{"+sll[labQ25]+"}"; addHitTestData(p25v, yv, "\\ensuremath{\\begin{bmatrix}"+sll.join("\\\\")+"\\end{bmatrix}\\;=\\;\\begin{bmatrix}"+sl.join("\\\\")+"\\end{bmatrix}}"); } if (JKQTPIsOKFloat(p75v)) { QStringList sl=labelValues, sll=labelNames; sl[labQ75]="\\ul{"+sl[labQ75]+"}"; sll[labQ75]="\\ul{"+sll[labQ75]+"}"; addHitTestData(p75v, yv, "\\ensuremath{\\begin{bmatrix}"+sll.join("\\\\")+"\\end{bmatrix}\\;=\\;\\begin{bmatrix}"+sl.join("\\\\")+"\\end{bmatrix}}"); } } if (drawMedian && JKQTPIsOKFloat(medianv)) { if (JKQTPIsOKFloat(medianv)) { QStringList sl=labelValues, sll=labelNames; sl[labMedian]="\\ul{"+sl[labMedian]+"}"; sll[labMedian]="\\ul{"+sll[labMedian]+"}"; addHitTestData(medianv, yv, "\\ensuremath{\\begin{bmatrix}"+sll.join("\\\\")+"\\end{bmatrix}\\;=\\;\\begin{bmatrix}"+sl.join("\\\\")+"\\end{bmatrix}}"); } } if (drawMinMax) { if (JKQTPIsOKFloat(minv)) { QStringList sl=labelValues, sll=labelNames; sl[labMin]="\\ul{"+sl[labMin]+"}"; sll[labMin]="\\ul{"+sll[labMin]+"}"; addHitTestData(minv, yv, "\\ensuremath{\\begin{bmatrix}"+sll.join("\\\\")+"\\end{bmatrix}\\;=\\;\\begin{bmatrix}"+sl.join("\\\\")+"\\end{bmatrix}}"); } if (JKQTPIsOKFloat(maxv)) { QStringList sl=labelValues, sll=labelNames; sl[labMax]="\\ul{"+sl[labMax]+"}"; sll[labMax]="\\ul{"+sll[labMax]+"}"; addHitTestData(maxv, yv, "\\ensuremath{\\begin{bmatrix}"+sll.join("\\\\")+"\\end{bmatrix}\\;=\\;\\begin{bmatrix}"+sl.join("\\\\")+"\\end{bmatrix}}"); } } if (drawMean && JKQTPIsOKFloat(meanv)) { if (JKQTPIsOKFloat(meanv)) { QStringList sl=labelValues, sll=labelNames; sl[labMean]="\\ul{"+sl[labMean]+"}"; sll[labMean]="\\ul{"+sll[labMean]+"}"; addHitTestData(meanv, yv, "\\ensuremath{\\begin{bmatrix}"+sll.join("\\\\")+"\\end{bmatrix}\\;=\\;\\begin{bmatrix}"+sl.join("\\\\")+"\\end{bmatrix}}"); } } } } //drawErrorsAfter(painter); } void JKQTPBoxplotVerticalGraph::intSortData() { sortedIndices.clear(); if (parent==nullptr) return ; JKQTPDatastore* datastore=parent->getDatastore(); int imin=0; int imax=static_cast(datastore->getRows(static_cast(posColumn))); if (imax datas; if (sortData==JKQTPBoxplotVerticalGraph::Sorted) { for (int i=0; iget(posColumn,static_cast(i)); sortedIndices<