mirror of
https://github.com/jkriege2/JKQtPlotter.git
synced 2024-12-26 18:41:40 +08:00
265 lines
11 KiB
C++
265 lines
11 KiB
C++
/** \example speedtestplot.cpp
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* JKQTPlotter: Examples: Simple line-graph with live-data (speed test)
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*
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* \ref JKQTPlotterSpeedTest
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*/
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#include "jkqtpexampleapplication.h"
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#include "speedtestplot.h"
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#include "jkqtplotter/graphs/jkqtpscatter.h"
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#include "jkqtmath/jkqtpstatisticstools.h"
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#define NUM_DATAPOINTS 500
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SpeedTestPlot::SpeedTestPlot():
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JKQTPlotter(), dx(1.0/static_cast<double>(NUM_DATAPOINTS)*4.0*JKQTPSTATISTICS_PI), x0(0), NDATA(NUM_DATAPOINTS)
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{
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X.fill(0);
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Y.fill(0);
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Y2.fill(0);
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// 1. optimize JKQTPlotter for speed (by switching off anti-aliasing)
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getPlotter()->setUseAntiAliasingForGraphs(false);
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getPlotter()->setUseAntiAliasingForSystem(false);
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getPlotter()->setUseAntiAliasingForText(false);
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// 2. now we create data for a simple plot (a sine curve + random[-0.5,0.5])
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updateDataSize(NDATA, false);
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// 3. make data available to JKQTPlotter by adding it to the internal datastore.
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// Here the data from the std::array's is not copied, but only the pointer to
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// the array is added to the datastore. therefore the datastore does not manage
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// the memory, oly uses the data stored in it!
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JKQTPDatastore* ds=getDatastore();
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size_t columnX=ds->addColumn(X.data(), NDATA, "x");
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size_t columnY=ds->addColumn(Y.data(), NDATA, "y");
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size_t columnY2=ds->addColumn(Y2.data(), NDATA, "y2");
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// 4. create two graphs in the plot, which plots the dataset X/Y:
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graph=new JKQTPXYLineGraph(this);
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graph->setXColumn(columnX);
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graph->setYColumn(columnY);
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graph->setTitle(QObject::tr("live sin() graph"));
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graph->setLineWidth(1);
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graph->setSymbolType(JKQTPNoSymbol);
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addGraph(graph);
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graph2=new JKQTPXYLineGraph(this);
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graph2->setXColumn(columnX);
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graph2->setYColumn(columnY2);
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graph2->setTitle(QObject::tr("live cos() graph"));
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graph2->setLineWidth(1);
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graph2->setSymbolType(JKQTPNoSymbol);
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addGraph(graph2);
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// 6. scale the plot so the graph is contained
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setX(X[0], X[NDATA-1]);
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setY(-2,2);
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actAntiAliase=new QAction(QObject::tr("Anti-Aliase"));
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actAntiAliase->setCheckable(true);
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actAntiAliase->setChecked(false);
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connect(actAntiAliase, &QAction::triggered, std::bind([](SpeedTestPlot* p){
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p->getPlotter()->setUseAntiAliasingForGraphs(p->actAntiAliase->isChecked());
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p->getPlotter()->setUseAntiAliasingForSystem(p->actAntiAliase->isChecked());
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p->getPlotter()->setUseAntiAliasingForText(p->actAntiAliase->isChecked());
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if (!p->actAnimation->isChecked()) p->redrawPlot();
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}, this));
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actTwoGraphs=new QAction(QObject::tr("2 Graphs"));
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actTwoGraphs->setCheckable(true);
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actTwoGraphs->setChecked(true);
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connect(actTwoGraphs, &QAction::triggered, std::bind([](SpeedTestPlot* p, JKQTPXYLineGraph* g){
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g->setVisible(p->actTwoGraphs->isChecked());
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if (!p->actAnimation->isChecked()) p->redrawPlot();
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}, this, graph2));
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actFixedXAxis=new QAction(QObject::tr("Fixed X-Axis"));
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actFixedXAxis->setCheckable(true);
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actFixedXAxis->setChecked(false);
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actLines=new QAction(QObject::tr("Show Graph Lines"));
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actLines->setCheckable(true);
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actLines->setChecked(true);
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connect(actLines, &QAction::toggled, std::bind([](bool enabled, JKQTPXYLineGraph* g, JKQTPXYLineGraph* g2,SpeedTestPlot* p){
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g->setDrawLine(enabled);
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g2->setDrawLine(enabled);
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if (!p->actAnimation->isChecked()) p->redrawPlot();
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}, std::placeholders::_1, graph, graph2,this));
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actSymbols=new QAction(QObject::tr("Show Graph Symbols"));
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actSymbols->setCheckable(true);
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actSymbols->setChecked(false);
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connect(actSymbols, &QAction::toggled, std::bind([](bool enabled, JKQTPXYLineGraph* g, JKQTPXYLineGraph* g2,SpeedTestPlot* p){
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g->setSymbolType(enabled?JKQTPCross:JKQTPNoSymbol);
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g2->setSymbolType(enabled?JKQTPCircle:JKQTPNoSymbol);
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if (!p->actAnimation->isChecked()) p->redrawPlot();
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}, std::placeholders::_1, graph, graph2,this));
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menuSizes=new QMenu(QObject::tr("number of datapoints"), this);
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QActionGroup* actGroup=new QActionGroup(menuSizes);
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for (size_t size: {50,100, 500, 1000, 2000, 10000}) {
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QAction* act=actGroup->addAction(QString::number(size));
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act->setCheckable(true);
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act->setChecked(size==500);
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connect(act, &QAction::toggled, std::bind([](bool enabled,SpeedTestPlot* p, size_t size){
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if (enabled) {
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p->updateDataSize(size);
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}
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}, std::placeholders::_1, this, size));
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menuSizes->addAction(act);
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}
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actUseNonvisibleLineCompression=new QAction(QObject::tr("use NonvisibleLineCompression"));
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actUseNonvisibleLineCompression->setCheckable(true);
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actUseNonvisibleLineCompression->setChecked(true);
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connect(actUseNonvisibleLineCompression, &QAction::toggled, std::bind([](bool enabled, JKQTPXYLineGraph* g, JKQTPXYLineGraph* g2,SpeedTestPlot* p){
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g->setUseNonvisibleLineCompression(enabled);
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g2->setUseNonvisibleLineCompression(enabled);
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if (!p->actAnimation->isChecked()) p->redrawPlot();
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}, std::placeholders::_1, graph, graph2,this));
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menuUseNonvisibleLineCompressionAgressiveness=new QMenu(QObject::tr("NonvisibleLineCompression level"), this);
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actGroup=new QActionGroup(menuUseNonvisibleLineCompressionAgressiveness);
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for (double a: {0.5, 0.8, 1.0, 1.5, 2.0, 5.0}) {
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QAction* act=actGroup->addAction(QString::number(a));
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act->setCheckable(true);
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act->setChecked(a==1.0);
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connect(act, &QAction::toggled, std::bind([](bool /*enabled*/,JKQTPXYLineGraph* g, JKQTPXYLineGraph* g2,SpeedTestPlot* p, double a){
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g->setNonvisibleLineCompressionAgressiveness(a);
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g2->setNonvisibleLineCompressionAgressiveness(a);
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if (!p->actAnimation->isChecked()) p->redrawPlot();
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}, std::placeholders::_1, graph, graph2,this, a));
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menuUseNonvisibleLineCompressionAgressiveness->addAction(act);
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}
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actStepAnimation=new QAction(QObject::tr("Next Animation Step"));
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actStepAnimation->setCheckable(false);
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actStepAnimation->setEnabled(false);
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connect(actStepAnimation, &QAction::triggered, std::bind([](SpeedTestPlot* p){
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p->plotNewData();
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}, this));
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actAnimation=new QAction(QObject::tr("Animation Active"));
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actAnimation->setCheckable(true);
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actAnimation->setChecked(true);
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connect(actAnimation, &QAction::toggled, std::bind([](bool enabled, SpeedTestPlot* p, QAction* actStepAnimation){
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if (enabled) {
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p->plotNewData();
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}
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actStepAnimation->setEnabled(!enabled);
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}, std::placeholders::_1, this, actStepAnimation));
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addAction(actAntiAliase);
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addAction(actFixedXAxis);
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addAction(menuSizes->menuAction());
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addAction(actTwoGraphs);
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addAction(actLines);
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addAction(actSymbols);
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addAction(actUseNonvisibleLineCompression);
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addAction(menuUseNonvisibleLineCompressionAgressiveness->menuAction());
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addAction(actAnimation);
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addAction(actStepAnimation);
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// show plotter and make it a decent size
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show();
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resize(1000,500);
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}
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SpeedTestPlot::~SpeedTestPlot()
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{
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}
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void SpeedTestPlot::plotNewData()
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{
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if (actFixedXAxis->isChecked()) {
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// ALTERNATIVE: MOVE data, but keep x-axis range
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x0+=dx;
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for (size_t i=0; i<NDATA-1; i++) {
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Y[i]=Y[i+1];
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Y2[i]=Y2[i+1];
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}
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// add one new data point
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Y[NDATA-1]=sin(X[NDATA-1]+x0)+static_cast<double>(std::rand())/static_cast<double>(RAND_MAX + 1u)-0.5+addOutlier(1.0/static_cast<double>(NDATA/5), 2.0);
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Y2[NDATA-1]=cos(X[NDATA-1]+x0)+static_cast<double>(std::rand())/static_cast<double>(RAND_MAX + 1u)-0.5+addOutlier(1.0/static_cast<double>(NDATA/7), 2.0);
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} else {
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// move old data to the left
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for (size_t i=0; i<NDATA-1; i++) {
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X[i]=X[i+1];
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Y[i]=Y[i+1];
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Y2[i]=Y2[i+1];
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}
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// add one new data point
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X[NDATA-1]=X[NDATA-2]+dx;
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Y[NDATA-1]=sin(X[NDATA-1])+static_cast<double>(std::rand())/static_cast<double>(RAND_MAX + 1u)-0.5+addOutlier(1.0/static_cast<double>(NDATA/5), 2.0);
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Y2[NDATA-1]=cos(X[NDATA-1])+static_cast<double>(std::rand())/static_cast<double>(RAND_MAX + 1u)-0.5+addOutlier(1.0/static_cast<double>(NDATA/7), 2.0);
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}
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// set new x-range and replot
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setX(X[0], X[NDATA-1]);
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redrawPlot();
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// calculate and update FPS-rate in window title
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const auto tlastalst=t_lastplot;
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t_lastplot=std::chrono::system_clock::now();
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const double delta_secs=static_cast<double>(std::chrono::duration_cast<std::chrono::milliseconds>(t_lastplot-tlastalst).count())/1000.0;
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calctimes.push_back(delta_secs);
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if (delta_secs<0.05) { while (calctimes.size()>60) calctimes.pop_front(); }
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else if (delta_secs<0.1) { while (calctimes.size()>30) calctimes.pop_front(); }
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else if (delta_secs<1) { while (calctimes.size()>10) calctimes.pop_front(); }
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else { while (calctimes.size()>5) calctimes.pop_front(); }
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setWindowTitle(QString("Live Data Speed Test: %2 datapoint, %3 [this: %1] fps").arg(1.0/delta_secs,0,'f',2).arg(NDATA).arg(1.0/jkqtpstatAverage(calctimes.begin(), calctimes.end()),0,'f',2));
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// enqueue call for next data value
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if (actAnimation->isChecked()) QTimer::singleShot(1, this, SLOT(plotNewData()));
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}
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void SpeedTestPlot::updateDataSize(size_t newSize, bool updatePlots)
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{
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NDATA=newSize;
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dx=1.0/double(NDATA)*4.0*JKQTPSTATISTICS_PI;
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// 2. now we create data for a simple plot (a sine curve + random[-0.5,0.5])
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for (size_t i=0; i<X.size(); i++) {
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const double x=static_cast<double>(i)*dx;
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X[i]=x0+x;
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Y[i]=sin(x)+static_cast<double>(std::rand())/static_cast<double>(RAND_MAX + 1u)-0.5+addOutlier(1.0/static_cast<double>(NDATA/5), 2.0);
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Y2[i]=cos(x)+static_cast<double>(std::rand())/static_cast<double>(RAND_MAX + 1u)-0.5+addOutlier(1.0/static_cast<double>(NDATA/7), 2.0);
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}
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if (updatePlots) {
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// 3. make data available to JKQTPlotter by adding it to the internal datastore.
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// Here the data from the std::array's is not copied, but only the pointer to
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// the array is added to the datastore. therefore the datastore does not manage
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// the memory, oly uses the data stored in it!
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JKQTPDatastore* ds=getDatastore();
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ds->clear();
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size_t columnX=ds->addColumn(X.data(), NDATA, "x");
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size_t columnY=ds->addColumn(Y.data(), NDATA, "y");
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size_t columnY2=ds->addColumn(Y2.data(), NDATA, "y2");
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// 4. create two graphs in the plot, which plots the dataset X/Y:
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graph->setXColumn(columnX);
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graph->setYColumn(columnY);
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graph2->setXColumn(columnX);
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graph2->setYColumn(columnY2);
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// 6. scale the plot so the graph is contained
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setX(X[0], X[NDATA]);
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setY(-2,2);
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}
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}
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double SpeedTestPlot::addOutlier(double prob, double height)
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{
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if (static_cast<double>(std::rand())/static_cast<double>(RAND_MAX + 1u)<prob) return height*(2.0*static_cast<double>(std::rand())/static_cast<double>(RAND_MAX + 1u)-1.0);
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else return 0;
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}
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