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# Example (JKQTPlotter): Plotting a Statistical Distribution of Data {#JKQTPlotterDistributionPlot}
This project (see [`test_distributionplot` ](../test_distributionplot ) demonstrates how to combine several different graphs and geometric elements to show a set of random values and their statistics.
The source code of the main application is (see [`test_distributionplot.cpp` ](test_distributionplot.cpp ).
After adding all necessary data to the JKQTDatastore:
```.cpp
// 1. create a plotter window and get a pointer to the internal datastore (for convenience)
JKQTPlotter plot;
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plot.getPlotter()->setUseAntiAliasingForGraphs(true); // nicer (but slower) plotting
plot.getPlotter()->setUseAntiAliasingForSystem(true); // nicer (but slower) plotting
plot.getPlotter()->setUseAntiAliasingForText(true); // nicer (but slower) text rendering
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JKQTPDatastore* ds=plot.getDatastore();
// 2. now we create random values drawn from a gaussian distribution
QVector< double > RANDVAL; // will store the values themselves
std::map< int , double > hist; // is used to calculate the histogram of the data
for (int i=-5; i< =15; i++) hist[i]=0;
std::random_device rd; // random number generators:
std::mt19937 gen{rd()};
// draw 301 random values from a gaussian distribution around 5 with width 3
const double th_mean=5;
const double th_std=3;
std::normal_distribution< > d{th_mean,th_std};
size_t NDATA=301;
double sum=0;
double square_sum=0;
for (size_t i=0; i< NDATA ; i + + ) {
const double v=d(gen);
RANDVAL< < v ; / / store data
++hist[std::round(v)]; // calculate histogram
// accumulate data for statistics:
sum+=v;
square_sum+=(v*v);
}
// normalize histogram
for (auto& hi: hist) {
hi.second=hi.second/static_cast< double > (NDATA);
}
// sort random data in order to calculate the statistical properties:
qSort(RANDVAL);
const double rndMean=sum/static_cast< double > (NDATA);
const double rndMin=RANDVAL.first();
const double rndMax=RANDVAL.last();
const double rndMedian=RANDVAL[RANDVAL.size()/2];
const double rndQ25=RANDVAL[RANDVAL.size()/4];
const double rndQ75=RANDVAL[RANDVAL.size()*3/4];
// 3. make data available to JKQTPlotter by adding it to the internal datastore.
size_t columnRANDVAL=ds->addCopiedColumn(RANDVAL, "RANDVAL"); // copy random values
std::pair< size_t , size_t > columnHIST = ds->addCopiedMap(hist, "HIST_X", "HIST_Y"); // copy histogram
// 4. create a graph of horizontal boxplots:
JKQTPSingleColumnSymbolsGraph* graphRANDVALS=new JKQTPSingleColumnSymbolsGraph(&plot);
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graphRANDVALS->setDataColumn(columnRANDVAL);
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// draw data as symbols at (x,y)=(data,-0.07):
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graphRANDVALS->setDataDirection(JKQTPSingleColumnSymbolsGraph::DataDirection::X);
graphRANDVALS->setPosition(-0.07);
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// data should scatter around position=-0.07 with a width=0.08 (i.e. from position-width/2 ... position+width/2)
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//graphRANDVALS->setWidth(0.08);
//graphRANDVALS->setPositionScatterStyle(JKQTPSingleColumnSymbolsGraph::RandomScatter);
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// data should scatter around position=-0.07 in a BeeSwarmScatter-Plot
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graphRANDVALS->setPositionScatterStyle(JKQTPSingleColumnSymbolsGraph::BeeSwarmScatter);
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// choose small filled circles as symbols, JKQTPGraphSymbols::set their color:
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graphRANDVALS->setSymbol(JKQTPFilledCircle);
graphRANDVALS->setSymbolSize(5);
graphRANDVALS->setColor(QColor("red"));
graphRANDVALS->setFillColor(graphRANDVALS->getColor().lighter(180));
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// set title:
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graphRANDVALS->setTitle("Random Data");
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// 5. draw the histogram as barchart:
JKQTPBarVerticalGraph* graphHIST=new JKQTPBarVerticalGraph(&plot);
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graphHIST->setXColumn(columnHIST.first);
graphHIST->setYColumn(columnHIST.second);
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// set title:
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graphHIST->setTitle("Histogram");
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// 6. draw the theoretical distribution as function graph:
JKQTPXFunctionLineGraph* graphTheoDist=new JKQTPXFunctionLineGraph(&plot);
// define the gaussian function used for the random number generator
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graphTheoDist->setPlotFunction([& th_mean,& th_std](double x) -> double {
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return 1.0/(th_std*sqrt(2.0*M_PI))*exp(-0.5*(x-th_mean)*(x-th_mean)/th_std/th_std);
});
// set title:
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graphTheoDist->setTitle(QString("Theoretical Distribution $\\mu=%1, \\sigma=%2$").arg(th_mean,0, 'f', 1).arg(th_std,0, 'f', 1));
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// 7. create a graph of horizontal boxplots:
JKQTPBoxplotHorizontalElement* graphBoxPlot=new JKQTPBoxplotHorizontalElement(&plot);
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graphBoxPlot->setPos(0.15);
graphBoxPlot->setMin(rndMin);
graphBoxPlot->setPercentile25(rndQ25);
graphBoxPlot->setMean(rndMean);
graphBoxPlot->setMedian(rndMedian);
graphBoxPlot->setPercentile75(rndQ75);
graphBoxPlot->setMax(rndMax);
graphBoxPlot->setBoxWidth(24);
graphBoxPlot->setMeanSymbolSize(16);
graphBoxPlot->setMeanSymbolWidth(2);
graphBoxPlot->setTitle("Statistical Properties");
graphBoxPlot->setColor(QColor("blue"));
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// make fill collor a lighter shade of the outline color
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graphBoxPlot->setFillColor(graphBoxPlot->getColor().lighter(180));
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// make whiskers dashed
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graphBoxPlot->setWhiskerStyle(Qt::DashLine);
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// 8. add the graphs to the plot, so it is actually displayed
plot.addGraph(graphRANDVALS);
plot.addGraph(graphHIST);
plot.addGraph(graphTheoDist);
plot.addGraph(graphBoxPlot);
// 9. autoscale the plot so the graph is contained
plot.zoomToFit();
// 10. Move key to top-left
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plot.getPlotter()->setKeyPosition(JKQTPKeyInsideTopLeft);
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// 11. show plotter and make it a decent size
plot.show();
plot.resize(800,800);
```
The result looks like this:
![test_distributionplot ](../../screenshots/test_distributionplot.png )