JKQtPlotter/examples/simpletest_parsedfunctionplot/jkqtplotter_simpletest_parsedfunctionplot.cpp

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/** \example jkqtplotter_simpletest_parsedfunctionplot.cpp
* JKQTPlotter: Examples: Plotting Parsed Mathematical Functions as Line Graphs
*
* \ref JKQTPlotterParsedFunctionPlot
*/
#include <QApplication>
#include <QLineEdit>
#include <QCheckBox>
#include <QFormLayout>
#include <QDoubleSpinBox>
#include "jkqtplotter/jkqtplotter.h"
#include "jkqtplotter/jkqtpgraphsscatter.h"
#include "jkqtplotter/jkqtpgraphsparsedfunction.h"
int main(int argc, char* argv[])
{
QApplication app(argc, argv);
// 1. create a window that conatins a line-edit to edit a function
// and a JKQTPlotter to display the function, combine everything in a layout
QWidget mainWin;
QLineEdit* edit=new QLineEdit(&mainWin);
edit->setToolTip("enter a function in dependence of the variable <tt>x</tt> and press ENTER to update the graph");
QCheckBox* check=new QCheckBox("display sample points");
QDoubleSpinBox* spinP1=new QDoubleSpinBox(&mainWin);
spinP1->setValue(8);
spinP1->setRange(-10000,10000);
spinP1->setToolTip("enter a Value for parameter <tt>p1</tt> and press ENTER to update the graph");
QDoubleSpinBox* spinP2=new QDoubleSpinBox(&mainWin);
spinP2->setValue(4);
spinP2->setRange(-10000,10000);
spinP2->setToolTip("enter a Value for parameter <tt>p1</tt> and press ENTER to update the graph");
JKQTPlotter* plot=new JKQTPlotter(&mainWin);
QFormLayout* flayout=new QFormLayout;
QVBoxLayout* layout=new QVBoxLayout;
mainWin.setLayout(layout);
flayout->addRow("equation:", edit);
flayout->addRow("p1 =", spinP1);
flayout->addRow("p2 =", spinP2);
flayout->addRow("", check);
layout->addLayout(flayout);
layout->addWidget(plot);
// 2. now we add a JKQTPXParsedFunctionLineGraph object, which will draw the function from
// the line edit
JKQTPXParsedFunctionLineGraph* parsedFunc=new JKQTPXParsedFunctionLineGraph(plot);
plot->addGraph(parsedFunc);
// finally we connect the line edit with the graph, whenever RETURN is pressed,
// the graph is updated:
auto updateGraphFunctor=
[=]() {
parsedFunc->setTitle(QString("user function: \\verb{"+edit->text()+"}, p_1=%1, p_2=%2").arg(spinP1->value()).arg(spinP2->value()));
parsedFunc->setFunction(edit->text());
parsedFunc->setParamsV(spinP1->value(), spinP2->value());
parsedFunc->setDisplaySamplePoints(check->isChecked());
plot->redrawPlot();
};
QObject::connect(edit, &QLineEdit::returnPressed, updateGraphFunctor);
QObject::connect(edit, &QLineEdit::editingFinished, updateGraphFunctor);
QObject::connect(check, &QCheckBox::toggled, updateGraphFunctor);
QObject::connect(spinP1, &QDoubleSpinBox::editingFinished, updateGraphFunctor);
QObject::connect(spinP2, &QDoubleSpinBox::editingFinished, updateGraphFunctor);
edit->setText("sin(x*p1)*exp(-x/p2)");
updateGraphFunctor();
// 3. 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"));
// 4. scale the plot so the graph is contained
plot->setXY(-10,10,-10,10);
// show window and make it a decent size
mainWin.show();
mainWin.resize(600,400);
return app.exec();
}