JKQtPlotter/examples/multiplot/test_multiplot.cpp

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/** \example test_multiplot.cpp
* JKQTPlotter: Examples: Laying out Several Plots
*
* \ref JKQTPlotterMultiPlotLayout
*/
#include <QApplication>
#include "jkqtplotter/jkqtplotter.h"
2019-06-20 22:06:31 +08:00
#include "jkqtplotter/graphs/jkqtpscatter.h"
#include "jkqtplotter/graphs/jkqtpparsedfunction.h"
#include "jkqtplotter/graphs/jkqtpbarchart.h"
#include <random>
#include <cmath>
#include "test_multiplot_ui.h"
int main(int argc, char* argv[])
{
QApplication app(argc, argv);
// 1. create a widget
QWidget mainWidget;
mainWidget.setWindowTitle("JKQTPlotter(s) in a QGridLayout");
// 2. Create a QGridLayout for the plots and add it to the widget.
QGridLayout* layout=new QGridLayout();
mainWidget.setLayout(layout);
// 3.1 create a main plotter widget and add it to the layout
JKQTPlotter* plotMain=new JKQTPlotter(&mainWidget);
layout->addWidget(plotMain, 0,0);
JKQTPDatastore* ds=plotMain->getDatastore();
// 3.2 create a second and third plotter widget and add them to the
// layout below and at the bottom right of the plotMain.
// Also configure it to use the same datastore as plotMain
JKQTPlotter* plotResid=new JKQTPlotter(false, &mainWidget, ds);
layout->addWidget(plotResid, 1,0);
JKQTPlotter* plotResidHist=new JKQTPlotter(false, &mainWidget, ds);
layout->addWidget(plotResidHist, 1,1);
// 3.3 synchronize width/x-axis of plotResid to width/x-axis of plotMain
plotResid->synchronizeToMaster(plotMain, JKQTBasePlotter::sdXAxis, true, true, true);
// 3.4 synchronize y-axis of width/plotResidHist to y-axis of width/plotResid
plotResidHist->synchronizeToMaster(plotResid, JKQTBasePlotter::sdYAxis, true, true, true);
// 3.5 ensure that the plot are printed/exported in whole, when printing in plotMain
plotMain->getPlotter()->setGridPrinting(true);
plotMain->getPlotter()->addGridPrintingPlotter(0,1,plotResid->getPlotter());
plotMain->getPlotter()->addGridPrintingPlotter(1,1,plotResidHist->getPlotter());
// 3.6 set relative sizes of the plots via the layout (small plots have 1/3 the width and height of the large plot
layout->setRowStretch(0,3);
layout->setRowStretch(1,1);
layout->setColumnStretch(0,3);
layout->setColumnStretch(1,1);
// 4. now we create some (artificial) data:
// - in plotMain we show an exponential curve and and some datapoints
// - in plotResid we show the residuals, i.e. the difference between the curve and the datapoints
// - in plotResidHist we will show a histogram of the residuals (calculated in histogram)
std::random_device rd;
std::mt19937 gen(rd());
std::normal_distribution<> d(0,0.5);
std::vector<double> dataX, dataY, dataRY;
std::map<double, int> histogram;
const int Ndata=60;
for(int n=0; n<Ndata; ++n) {
const double x=3.0*JKQTPSTATISTICS_PI/static_cast<double>(Ndata)*static_cast<double>(n)-0.5;
const double y=2.0*(1.0+cos(x));
const double yd=y+d(gen);
dataX.push_back(x);
dataY.push_back(yd);
dataRY.push_back(y-yd);
// calculate a simple type of histogram in a std:map, bins are 1/4=0.25 wide
const double hbin=std::round((y-yd)*4.0)/4.0;
if (histogram.find(hbin)==histogram.end()) {
histogram[hbin]=0;
} else {
histogram[hbin]++;
}
}
// 5. and add the data to the datastore
size_t cX=ds->addCopiedColumn(dataX, "dataX");
size_t cY=ds->addCopiedColumn(dataY, "dataY");
size_t cRY=ds->addCopiedColumn(dataRY, "residY");
std::pair<size_t,size_t> cH=ds->addCopiedMap(histogram, "histX", "histY");
// 5.1 plot of the data
JKQTPXYLineGraph* graphD=new JKQTPXYLineGraph(plotMain);
graphD->setXColumn(cX);
graphD->setYColumn(cY);
graphD->setDrawLine(false);
graphD->setSymbolType(JKQTPCross);
graphD->setSymbolSize(10);
graphD->setTitle("measurement data");
plotMain->addGraph(graphD);
// 5.2 plot of the graph as an interpreted function, set as string "2*(1+cos(x))"
JKQTPXParsedFunctionLineGraph* graphFit=new JKQTPXParsedFunctionLineGraph(plotMain);
graphFit->setFunction("2*(1+cos(x))");
graphFit->setTitle("fit");
plotMain->addGraph(graphFit);
// 5.3 residuals plot
JKQTPXYLineGraph* graphResid=new JKQTPXYLineGraph(plotResid);
graphResid->setXColumn(cX);
graphResid->setYColumn(cRY);
graphResid->setDrawLine(false);
graphResid->setSymbolType(JKQTPPlus);
graphResid->setSymbolSize(10);
graphResid->setDrawLine(true);
graphResid->setLineWidth(0.5);
graphResid->setTitle("residuals");
plotResid->addGraph(graphResid);
// 5.3 residual histogram plot
JKQTPBarHorizontalGraph* graphResidHist=new JKQTPBarHorizontalGraph(plotResidHist);
graphResidHist->setXColumn(cH.second);
graphResidHist->setYColumn(cH.first);
graphResidHist->setTitle("histogram");
plotResidHist->addGraph(graphResidHist);
// 6.1 axis labels, distributed over the several plots
plotMain->getYAxis()->setAxisLabel("y axis");
plotResid->getXAxis()->setAxisLabel("x axis");
plotResid->getYAxis()->setAxisLabel("residuals");
plotResidHist->getXAxis()->setAxisLabel("frequency");
// 6.2 switch off the tick labels on the axes that directly face another plot
plotMain->getXAxis()->setDrawMode1(JKQTPCADMLineTicks);
plotResidHist->getYAxis()->setDrawMode1(JKQTPCADMLineTicks);
// 6.3 show tick labels on the rhs y-axis of the residual histogram plot
plotResidHist->getYAxis()->setDrawMode2(JKQTPCADMLineTicksTickLabels);
// 6.4 hide keys in all plots but the main plot
plotResid->getPlotter()->setShowKey(false);
plotResidHist->getPlotter()->setShowKey(false);
// 6.5 hide position label and toolbars in the plots except main plot
plotResid->setToolbarEnabled(false);
plotResid->setMousePositionShown(false);
plotResidHist->setToolbarEnabled(false);
plotResidHist->setMousePositionShown(false);
plotMain->setToolbarEnabled(true);
// 7. scale plots automatically to data
plotResidHist->setAbsoluteX(0, 20);
plotResid->zoomToFit();
plotResidHist->zoomToFit();
plotMain->zoomToFit();
// 8. show plotter and make it a decent size
mainWidget.show();
mainWidget.move(32,32);
mainWidget.resize(800,600);
// 9. create a second window, which controls the synchronization and layout between the plots
TestMultiplotUI controlWindow(plotMain, plotResid, plotResidHist, layout);
controlWindow.move(850,32);
controlWindow.show();
return app.exec();
}