JKQtPlotter/examples/functionplot/functionplot.cpp

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/** \example functionplot.cpp
* Shows how to plot Mathematical Functions as Line Graphs with JKQTPlotter (as evaluated C/C++ functions)
*
* \ref JKQTPlotterFunctionPlots
*/
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#include "jkqtpexampleapplication.h"
#include <QApplication>
#include <QCheckBox>
#include <QVector>
#include <QMap>
#include "jkqtplotter/jkqtplotter.h"
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#include "jkqtplotter/graphs/jkqtpevaluatedfunction.h"
double sinc(double x) {
return 10.0*sin(x)/x;
}
struct SincSqr {
public:
inline SincSqr(double amplitude): a(amplitude) {}
inline double operator()(double x) {
return a*sin(x)*sin(x)/x/x;
}
private:
double a;
};
template <class TFUNCGRAPH>
void drawExample(QApplication& app, const QString& name) {
// 1.1 create a window that contains a line-edit to edit a function
// and a JKQTPlotter to display the function, combine everything in a layout
QWidget* mainWin=new QWidget();
mainWin->setWindowTitle(name);
JKQTPlotter* plot=new JKQTPlotter(mainWin);
QVBoxLayout* layout=new QVBoxLayout;
mainWin->setLayout(layout);
layout->addWidget(plot);
// 1.2 add checkbox that allows to switch the display of sample points
QCheckBox* chkShowSamples=new QCheckBox(app.tr("display sample points"));
chkShowSamples->setChecked(false);
layout->addWidget(chkShowSamples);
// 2. now we add a JKQTPXFunctionLineGraph object, which will draw a simple function
// the function is defined as C++ inline function
TFUNCGRAPH* func1=new TFUNCGRAPH(plot);
func1->setPlotFunctionFunctor([](double x) { return 0.2*x*x-0.015*x*x*x; });
func1->setTitle("C++-inline function $0.2x^2-0.015x^3$");
QObject::connect(chkShowSamples, &QCheckBox::toggled, [=](bool en) {
func1->setDisplaySamplePoints(en);
plot->redrawPlot();
});
plot->addGraph(func1);
// 3. now we add a JKQTPXFunctionLineGraph object, which will draw a simple function
// the function is again defined as C++ inline function, but now uses internal
// parameters (handed over to the function as a pointer to QVector<double>
TFUNCGRAPH* func2=new TFUNCGRAPH(plot);
func2->setPlotFunctionFunctor([](double x, const QVector<double>& p) {
return p.at(0)*sin(2.0*JKQTPSTATISTICS_PI*x*p.at(1));
});
// here we set the parameters p0, p1
func2->setParamsV(5, 0.2);
func2->setTitle("C++-inline function with int. params $p_0\\cdot\\sin(x*2.0*\\pi\\cdot p_1)$");
QObject::connect(chkShowSamples, &QCheckBox::toggled, [=](bool en) {
func2->setDisplaySamplePoints(en);
plot->redrawPlot();
});
plot->addGraph(func2);
// 4. of course the function may also be any C+ funtor object:
TFUNCGRAPH* func4=new TFUNCGRAPH(plot);
func4->setPlotFunctionFunctor(SincSqr(-8));
func4->setTitle("C++ functor $-8*\\sin^2(x)/x^2$");
QObject::connect(chkShowSamples, &QCheckBox::toggled, [=](bool en) {
func4->setDisplaySamplePoints(en);
plot->redrawPlot();
});
plot->addGraph(func4);
// 5. now we use a JKQTPXFunctionLineGraph to draw a static C function
TFUNCGRAPH* func5=new TFUNCGRAPH(plot);
func5->setPlotFunctionFunctor(&sinc);
func5->setTitle("static C function $10*\\sin(x)/x$");
QObject::connect(chkShowSamples, &QCheckBox::toggled, [=](bool en) {
func5->setDisplaySamplePoints(en);
plot->redrawPlot();
});
plot->addGraph(func5);
// 6. finally JKQTPXFunctionLineGraph defines a small set of common functions
TFUNCGRAPH* func6=new TFUNCGRAPH(plot);
func6->setSpecialFunction(TFUNCGRAPH::Line);
// here we set offset p0=-1 and slope p1=1.5 of the line p0+p1*x
func6->setParamsV(-1,1.5);
func6->setTitle("special function: linear p_0=-1, p_1=1.5");
QObject::connect(chkShowSamples, &QCheckBox::toggled, [=](bool en) {
func6->setDisplaySamplePoints(en);
plot->redrawPlot();
});
plot->addGraph(func6);
// 7. finally JKQTPXFunctionLineGraph defines a small set of common functions
TFUNCGRAPH* func7=new TFUNCGRAPH(plot);
func7->setSpecialFunction(TFUNCGRAPH::Line);
// here we set offset p0=1 and slope p1=-1.5 of the line p0+p1*x by adding these into a column
// in the internal datastore and then set that column as parameterColumn for the function graph
QVector<double> params;
params << /*p0=*/1 << /*p1=*/-1.5;
size_t paramCol=plot->getDatastore()->addCopiedColumn(params);
func7->setParameterColumn(paramCol);
func7->setTitle("special function: linear p_0=1, p_1=-1.5");
QObject::connect(chkShowSamples, &QCheckBox::toggled, [=](bool en) {
func7->setDisplaySamplePoints(en);
plot->redrawPlot();
});
plot->addGraph(func7);
// 8. set some axis properties (we use LaTeX for nice equation rendering)
plot->getXAxis()->setAxisLabel(QObject::tr("x-axis"));
plot->getYAxis()->setAxisLabel(QObject::tr("y-axis"));
plot->getPlotter()->setKeyPosition(JKQTPKeyOutsideBottomLeft);
// 9. scale the plot so the graph is contained
plot->setXY(-10,10,-10,10);
plot->redrawPlot();
// show window and make it a decent size
mainWin->show();
mainWin->resize(500,500);
}
int main(int argc, char* argv[])
{
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JKQTPAppSettingController highDPIController(argc, argv);
JKQTPExampleApplication app(argc, argv);
drawExample<JKQTPXFunctionLineGraph>(app, "1: functionplot: JKQTPXFunctionLineGraph");
drawExample<JKQTPYFunctionLineGraph>(app, "2: functionplot: JKQTPYFunctionLineGraph");
return app.exec();
}