mirror of
https://github.com/jkriege2/JKQtPlotter.git
synced 2024-12-26 10:31:39 +08:00
120 lines
4.3 KiB
C++
120 lines
4.3 KiB
C++
/** \example vectorfield.cpp
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* Display a vector field
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*
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* \ref JKQTPlotterVectorFieldExample
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*/
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#include "jkqtpexampleapplication.h"
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#include <QApplication>
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#include "jkqtplotter/jkqtplotter.h"
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#include "jkqtplotter/graphs/jkqtpvectorfield.h"
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#include "jkqtplotter/graphs/jkqtpscatter.h"
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#include "jkqtpexampleapplication.h"
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#define NX 9
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#define NY 9
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int main(int argc, char* argv[])
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{
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JKQTPAppSettingController highDPIController(argc,argv);
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JKQTPExampleApplication app(argc, argv);
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// 1. setup a plotter window and get a pointer to the internal datastore (for convenience)
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JKQTPlotter plot;
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plot.getPlotter()->setUseAntiAliasingForGraphs(true); // nicer (but slower) plotting
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plot.getPlotter()->setUseAntiAliasingForSystem(true); // nicer (but slower) plotting
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plot.getPlotter()->setUseAntiAliasingForText(true); // nicer (but slower) text rendering
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JKQTPDatastore* ds=plot.getDatastore();
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// 2. make up some arbitrary data to be used for plotting
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// this generates a 2D grid of x/y-coordinates and then calculates dx=cos(y)*sqrt(x/3.0) and dy=sin(x)*sqrt(x/3.0)
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const auto columnXY=ds->addLinearGridColumns(NX, 0, 6, NY, -3, 3,"x","y");
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const auto columnDX=ds->addCalculatedColumnFromColumn(columnXY.first, columnXY.second, [](double x,double y) { return sin(y)*sqrt(x/3.0); });
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const auto columnDY=ds->addCalculatedColumnFromColumn(columnXY.first, columnXY.second, [](double x,double y) { return cos(x)*sqrt(x/3.0); });
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// 3. create JKQTPVectorFieldGraph to display the data:
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JKQTPVectorFieldGraph* graph1=new JKQTPVectorFieldGraph(&plot);
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graph1->setXYColumns(columnXY);
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graph1->setDxColumn(columnDX);
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graph1->setDyColumn(columnDY);
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graph1->setTitle(QObject::tr("$\\vec{f}(x,y)=\\bigl[\\sin(y)\\cdot\\sqrt{x/3}, \\cos(x)\\cdot\\sqrt{x/3}\\bigr]^\\mathrm{T}$"));
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// 4. add the graphs to the plot, so it is actually displayed
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plot.addGraph(graph1);
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// 5. scale the plot so the graph is contained
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plot.getPlotter()->setAxisAspectRatio(1);
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plot.getPlotter()->setAspectRatio(1);
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plot.getPlotter()->setMaintainAxisAspectRatio(true);
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plot.getPlotter()->setMaintainAspectRatio(true);
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plot.zoomToFit();
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// show plotter and make it a decent size
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plot.setWindowTitle("JKQTPVectorFieldGraph example");
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plot.show();
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plot.resize(400/plot.devicePixelRatioF(),430/plot.devicePixelRatioF());
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JKQTPXYScatterGraph* g2;
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app.addExportStepFunctor([&](){
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g2=new JKQTPXYScatterGraph(&plot);
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g2->setXYColumns(columnXY);
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g2->setTitle("anchor points");
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g2->setSymbolSize(5);
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g2->setSymbolType(JKQTPFilledCircle);
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plot.addGraph(g2);
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plot.redrawPlot();
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});
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app.addExportStepFunctor([&](){
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graph1->setAnchorPoint(JKQTPVectorFieldGraph::AnchorMid);
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plot.redrawPlot();
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});
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app.addExportStepFunctor([&](){
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graph1->setAnchorPoint(JKQTPVectorFieldGraph::AnchorTip);
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plot.redrawPlot();
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});
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app.addExportStepFunctor([&](){
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graph1->setAnchorPoint(JKQTPVectorFieldGraph::AnchorBottom);
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graph1->setVectorLengthMode(JKQTPVectorFieldGraph::AutoscaleLength);
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plot.redrawPlot();
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});
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app.addExportStepFunctor([&](){
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graph1->setAnchorPoint(JKQTPVectorFieldGraph::AnchorBottom);
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graph1->setVectorLengthMode(JKQTPVectorFieldGraph::LengthFromData);
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plot.redrawPlot();
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});
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app.addExportStepFunctor([&](){
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graph1->setAnchorPoint(JKQTPVectorFieldGraph::AnchorBottom);
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graph1->setVectorLengthMode(JKQTPVectorFieldGraph::IgnoreLength);
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plot.redrawPlot();
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});
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app.addExportStepFunctor([&](){
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g2->setVisible(false);
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graph1->setAnchorPoint(JKQTPVectorFieldGraph::AnchorBottom);
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graph1->setVectorLengthMode(JKQTPVectorFieldGraph::IgnoreLength);
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graph1->setVectorLineWidthMode(JKQTPVectorFieldGraph::AutoscaleLineWidthFromLength);
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graph1->setLineWidth(4);
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plot.redrawPlot();
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});
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app.addExportStepFunctor([&](){
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g2->setVisible(false);
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graph1->setAnchorPoint(JKQTPVectorFieldGraph::AnchorBottom);
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graph1->setVectorLengthMode(JKQTPVectorFieldGraph::AutoscaleLength);
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graph1->setVectorLineWidthMode(JKQTPVectorFieldGraph::AutoscaleLineWidthFromLength);
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graph1->setLineWidth(4);
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plot.redrawPlot();
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});
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return app.exec();
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}
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