JKQtPlotter/test/jkqtplot_test/TestWidgetGraphs.cpp

358 lines
14 KiB
C++

#include "TestWidgetGraphs.h"
#include <QDebug>
#include <QDate>
#include <QDateTime>
#include <QApplication>
TestWidgetGraphs::TestWidgetGraphs(QWidget *parent) :
QWidget(parent)
{
ovlCnt=0;
ovlTime.start();
plot=new JKQtPlotter(true, this);
plot->set_doDrawing(false);
plotBot=new JKQtPlotter(false, this, plot->getDatastore());
plotBot2=new JKQtPlotter(false, this, plot->getDatastore());
ovl1=new JKQTPoverlayVerticalLine(0.0, tr("test"), plot->get_plotter());
plot->get_plotter()->addOverlayElement(ovl1);
plot->setObjectName("plot");
plotBot->setObjectName("plotBot");
plotBot2->setObjectName("plotBot2");
plot->get_plotter()->set_plotLabel("Plot Label $1.\\alpha$");
plot->get_plotter()->set_userSettigsFilename(QApplication::applicationDirPath()+"/usersettings.ini", "plot/");
plotBot->get_plotter()->set_userSettigsFilename(QApplication::applicationDirPath()+"/usersettings.ini", "plot/");
plotBot2->get_plotter()->set_userSettigsFilename(QApplication::applicationDirPath()+"/usersettings.ini", "plot/");
QListView* listPlots=new QListView(this);
listPlots->setModel(plot->get_plotter()->getPlotsModel());
listPlots->setMaximumWidth(256);
QVBoxLayout* layout=new QVBoxLayout(this);
QGridLayout* layout_grid=new QGridLayout(this);
layout_grid->addWidget(plot,0,0,1,1);
layout_grid->addWidget(plotBot,1,0,1,1);
layout_grid->addWidget(listPlots,0,1,1,1);
layout_grid->setColumnStretch(0,1);
layout->addLayout(layout_grid,2);
layout->addWidget(plotBot2,1);
setLayout(layout);
resize(1000, 800);
plotBot->synchronizeToMaster(plot, true, false);
connect(plot, SIGNAL(zoomChangedLocally(double,double,double,double,JKQtPlotter*)), plotBot, SLOT(synchronizeXAxis(double,double,double,double,JKQtPlotter*)));
plot->get_plotter()->set_gridPrinting(true);
plot->get_plotter()->addGridPrintingPlotter(0,1,plotBot->get_plotter());
plot->get_plotter()->addGridPrintingPlotter(0,2,plotBot2->get_plotter());
plot->get_plotter()->getXAxis()->set_axisLabel("$x$ axis with greek letters $\\sqrt{\\alpha\\cdot\\beta}$");
plot->get_plotter()->getYAxis()->set_axisLabel("$y$-axis label $f(x)=\\sin\\left(x^2\\right)$ [unit]");
plotBot->get_plotter()->getXAxis()->set_axisLabel(plot->get_plotter()->getXAxis()->get_axisLabel());
plotBot->get_plotter()->getYAxis()->set_axisLabel("$y$-axis 2 [unit]");
plotBot2->get_plotter()->getXAxis()->set_axisLabel(plot->get_plotter()->getXAxis()->get_axisLabel());
plotBot2->get_plotter()->getYAxis()->set_axisLabel("$y$-axis 3 [unit]");
plotBot2->get_plotter()->getXAxis()->addAxisTickLabel(2.5, "tick 1");
plotBot2->get_plotter()->getXAxis()->addAxisTickLabel(7.5, "tick 2");
plotBot2->get_plotter()->getXAxis()->addAxisTickLabel(12.5, "tick 3");
plotBot2->get_plotter()->getXAxis()->addAxisTickLabel(17.5, "tick 4");
for (unsigned int i=0; i<N1; i++) {
x1[i]=(double)(i+1)/(double)N1*8*M_PI;
y11[i]=sin(x1[i]);
y12[i]=cos(x1[i]);
y13[i]=y12[i]/4.0;
x2r[i]=double(rand()%250)/10.0;
y21r[i]=double(rand()%100)/10.0-5.0;
y21re[i]=y21r[i]*double(rand()%10)/40.0;
}
JKQTPdatastore* ds=plot->get_plotter()->getDatastore();
//size_t cx1=ds->addColumn(x1, N1, "x1");
//size_t cy11=ds->addColumn(y11, N1, "y11");
//size_t cy12=ds->addColumn(y12, N1, "y12");
//size_t cy13=ds->addColumn(y13, N1, "y13");
//plot->addGraph(cx1, cy11, "$\\sin(x)$", JKQTPpoints);
//plot->addGraph(cy12, cx1, "$\\cos(x)$", JKQTPfilledCurveY);
//plot->addGraphWithXError(cy12, cx1, cy13, "$\\cos(x)$ with errors", JKQTPfilledCurveY, JKQTPerrorPolygons);
for (unsigned int i=0; i<N2; i++) {
x2[i]=(double)(i+1)/(double)N2*8*M_PI;
y21[i]=5*sin(x2[i]);
y22[i]=1;//1+sin(x2[i]*4);
y23[i]=pow(5,x2[i]/5.0);
y24[i]=x2[i]/10;
}
size_t cx2=ds->addColumn(x2, N2, "x2");
size_t cy21=ds->addColumn(y21, N2, "y21");
size_t cy22=ds->addColumn(y22, N2, "y22");
size_t cy23=ds->addColumn(y23, N2, "y23");
//size_t cy24=ds->addColumn(y24, N2, "y24");
size_t cx2r=ds->addColumn(x2r, N2, "x2r");
size_t cy21r=ds->addColumn(y21r, N2, "y21r");
size_t cy21re=ds->addColumn(y21re, N2, "y21re");
size_t id=plot->get_plotter()->addGraph(cx2, cy21, "$5\\cdot\\sin(x)$", JKQTPfilledCurveX);
JKQTPfilledCurveXGraph* fcxgr=qobject_cast<JKQTPfilledCurveXGraph*>(plot->get_plotter()->getGraph(id));
if (fcxgr) {
fcxgr->set_baseline(2);
}
size_t yeb=plot->get_plotter()->addGraphWithXYError(cx2, cy21, cy22, cy22, "sine with errors", JKQTPfilledCurveX);
plteErrors=plot->get_plotter()->getGraph(yeb);
setErrorStyle(0);
yeb=plot->get_plotter()->addGraph(cx2, cy21, "$5\\cdot\\sin(x)$", JKQTPlinesPoints);
plteSymbols=plot->get_plotter()->getGraph(yeb);
pltePlot2=new JKQTPxyLineErrorGraph(plotBot->get_plotter());
pltePlot2->set_xColumn(cx2r);
pltePlot2->set_yColumn(cy21r);
pltePlot2->set_title(tr("random numbers"));
pltePlot2->set_drawLine(true);
pltePlot2->set_yErrorColumn(cy21re);
pltePlot2->set_yErrorStyle(JKQTPerrorBarsPolygons);
pltePlot2->set_symbol(JKQTPfilledStar);
plotBot->get_plotter()->addGraph(pltePlot2);
plotBot->zoomToFit();
for (unsigned int i=0; i<N3; i++) {
if (i<N3/2) xbox[i]=pow(10, double(i)/N3*2.0);
else xbox[i]=10+i*2.0;
ymed[i]=i+3;
ymean[i]=i+3.5;
ymin[i]=ymed[i]-(i*2.0+1.5);
ymax[i]=ymed[i]+(i*2.0+1.5);
yp25[i]=ymed[i]-(i+0.5);
yp75[i]=ymed[i]+(i+1);
b1[i]=1.5+cos(i);
b2[i]=1.5+cos(i+M_PI/8.0);
b3[i]=1.5+sin(i);
//plot->getXAxis()->addAxisTickLabel(i+1, QString("$\\pi_{%1}\\cdot 10^{%2}$").arg(i+1).arg(i+1-N3));
//plot->getYAxis()->addAxisTickLabel(i+1, QString("$\\pi_{%1}\\cdot 10^{%2}$").arg(i+1).arg(i+1-N3));
}
size_t cbp=ds->addLinearColumn(N3, 2, N3+2, "boxplot_x");
size_t cbxbox=ds->addColumn(xbox, N3, "xbox_log");
size_t cbmean=ds->addColumn(ymean, N3, "ymean");
size_t cbmed=ds->addColumn(ymed, N3, "ymed");
size_t cbmin=ds->addColumn(ymin, N3, "ymin");
size_t cbmax=ds->addColumn(ymax, N3, "ymax");
size_t cbp25=ds->addColumn(yp25, N3, "yp25");
size_t cbp75=ds->addColumn(yp75, N3, "yp75");
QVector<size_t> cb;
cb.push_back(ds->addColumn(b1, N3, "b1"));
cb.push_back(ds->addColumn(b2, N3, "b2"));
cb.push_back(ds->addColumn(b3, N3, "b3"));
QStringList ts;
ts<<"bars 1"<<"bars 2"<<"bars 3";
plot->get_plotter()->addVerticalBargraph(cb, cbp, ts);
JKQTPverticalRange* r1=new JKQTPverticalRange(plot->get_plotter());
r1->set_rangeMin(5);
r1->set_rangeMax(10);
r1->set_rangeCenter(7.5);
r1->set_title("vert. range");
plot->get_plotter()->addGraph(r1);
JKQTPhorizontalRange* r2=new JKQTPhorizontalRange(plot->get_plotter());
r2->set_rangeMin(5);
r2->set_rangeMax(10);
r2->set_rangeCenter(7.5);
r2->set_title("hor. range");
plot->get_plotter()->addGraph(r2);
JKQTPboxplotVerticalGraph* box=new JKQTPboxplotVerticalGraph(plotBot2->get_plotter());
box->set_posColumn(cbxbox);
box->set_medianColumn(cbmed);
box->set_meanColumn(cbmean);
box->set_minColumn(cbmin);
box->set_maxColumn(cbmax);
box->set_percentile25Column(cbp25);
box->set_percentile75Column(cbp75);
box->set_title("Boxplot");
plotBot2->addGraph(box);
plotBot2->zoomToFit();
/*JKQTPyFunctionLineGraph* g=new JKQTPyFunctionLineGraph(&plot);
g->set_title("function 1");
g->set_plotFunction(f1);
g->set_errorFunction(f1e);
g->set_drawErrorLines(true);
g->set_drawErrorPolygons(false);
g->set_color(QColor("red"));
plot->addGraph(g);*/
/*JKQTPxFunctionLineGraph* g=new JKQTPxFunctionLineGraph(&plot);
g->set_title("function 2");
g->set_plotFunction(f2);
plot->addGraph(g);*/
/*JKQTPstepVerticalGraph* g=new JKQTPstepVerticalGraph(&plot);
g->set_xColumn(cy11);
g->set_yColumn(cx1);
g->set_fillCurve(true);
g->set_valuesCentered(true);
plot->addGraph(g);
plot->addGraph(cy11, cx1, "$\\sin(x)$", JKQTPpoints);*/
plot->set_doDrawing(true);
plot->get_plotter()->zoomToFit(true, false);//, true);
plot->get_plotter()->set_keyAutosize(true);
QCheckBox* chklogX=new QCheckBox("logarithmic X-axis", this);
QCheckBox* chklogY=new QCheckBox("logarithmic Y-axis", this);
connect(chklogX, SIGNAL(toggled(bool)), plot->get_plotter()->getXAxis(), SLOT(set_logAxis(bool)));
connect(chklogY, SIGNAL(toggled(bool)), plot->get_plotter()->getYAxis(), SLOT(set_logAxis(bool)));
connect(chklogX, SIGNAL(toggled(bool)), plotBot2->get_plotter()->getXAxis(), SLOT(set_logAxis(bool)));
connect(chklogY, SIGNAL(toggled(bool)), plotBot2->get_plotter()->getYAxis(), SLOT(set_logAxis(bool)));
layout->addWidget(chklogX);
layout->addWidget(chklogY);
QCheckBox* chkInvertX=new QCheckBox("invert X-axis", this);
QCheckBox* chkInvertY=new QCheckBox("invert Y-axis", this);
connect(chkInvertX, SIGNAL(toggled(bool)), plot->get_plotter()->getXAxis(), SLOT(set_inverted(bool)));
connect(chkInvertY, SIGNAL(toggled(bool)), plot->get_plotter()->getYAxis(), SLOT(set_inverted(bool)));
layout->addWidget(chkInvertX);
layout->addWidget(chkInvertY);
layout->addWidget(chkInvertX);
layout->addWidget(chkInvertY);
JKQTPSymbolComboBox* cmbPlotSymbol=new JKQTPSymbolComboBox(this);
cmbPlotSymbol->setSymbol(JKQTPplus);
connect(cmbPlotSymbol, SIGNAL(currentIndexChanged(int)), this, SLOT(setESSymbol(int)));
layout->addWidget(cmbPlotSymbol);
JKQTPerrorPlotstyleComboBox* cmbErrors=new JKQTPerrorPlotstyleComboBox(this);
cmbErrors->setCurrentErrorStyle(JKQTPerrorBars);
connect(cmbErrors, SIGNAL(currentIndexChanged(int)), this, SLOT(setErrorStyle(int)));
layout->addWidget(cmbErrors);
QDoubleSpinBox* spinScale=new QDoubleSpinBox(this);
spinScale->setRange(0.1,5);
spinScale->setSingleStep(0.1);
spinScale->setValue(1);
spinScale->setPrefix("magnification: ");
layout->addWidget(spinScale);
connect(spinScale, SIGNAL(valueChanged(double)), plot, SLOT(setMagnification(double)));
connect(spinScale, SIGNAL(valueChanged(double)), plotBot, SLOT(setMagnification(double)));
connect(spinScale, SIGNAL(valueChanged(double)), plotBot2, SLOT(setMagnification(double)));
QComboBox* cmbSortOrder2=new QComboBox(this);
cmbSortOrder2->addItem(tr("plot 2: unsorted"));
cmbSortOrder2->addItem(tr("plot 2: sort X"));
cmbSortOrder2->addItem(tr("plot 2: sort Y"));
connect(cmbSortOrder2, SIGNAL(currentIndexChanged(int)), this, SLOT(setSortOrder2(int)));
layout->addWidget(cmbSortOrder2);
JKQTPkeyLayoutComboBox* cmbKeyLayout=new JKQTPkeyLayoutComboBox(this);
connect(cmbKeyLayout, SIGNAL(currentLayoutChanged(JKQTPkeyLayout)), this, SLOT(setKeyLayout2(JKQTPkeyLayout)));
layout->addWidget(cmbKeyLayout);
JKQTPkeyPositionComboBox* cmbKeyPos=new JKQTPkeyPositionComboBox(this);
connect(cmbKeyPos, SIGNAL(currentPositionChanged(JKQTPkeyPosition)), this, SLOT(setKeyPos2(JKQTPkeyPosition)));
layout->addWidget(cmbKeyPos);
QTimer::singleShot(50, this, SLOT(moveovl()));
}
void TestWidgetGraphs::moveovl() {
ovl1->set_position(ovl1->get_position()+0.1);
if (ovl1->get_position()>30) ovl1->set_position(0);
ovlCnt++;
if (ovlCnt>20) {
double fps=double(ovlCnt)/(double(ovlTime.elapsed())/1000.0);
ovl1->set_text(QString("%1 fps").arg(fps));
ovlCnt=0;
ovlTime.start();
}
plot->update_overlays();
QTimer::singleShot(10, this, SLOT(moveovl()));
}
void TestWidgetGraphs::setErrorStyle(int index)
{
QComboBox* cmb=qobject_cast<QComboBox*>(sender());
if (cmb) {
JKQTPxyGraphErrors* exy=dynamic_cast<JKQTPxyGraphErrors*>(plteErrors);
JKQTPxGraphErrors* ex=dynamic_cast<JKQTPxGraphErrors*>(plteErrors);
JKQTPyGraphErrors* ey=dynamic_cast<JKQTPyGraphErrors*>(plteErrors);
if (exy) {
exy->set_yErrorStyle(String2JKQTPerrorPlotstyle(cmb->itemData(cmb->currentIndex()).toString()));
}
if (ey) {
ey->set_yErrorStyle(String2JKQTPerrorPlotstyle(cmb->itemData(cmb->currentIndex()).toString()));
}
plot->update_plot();
}
}
void TestWidgetGraphs::setESSymbol(int index)
{
QComboBox* cmb=qobject_cast<QComboBox*>(sender());
if (cmb) {
JKQTPxyLineGraph* exy=dynamic_cast<JKQTPxyLineGraph*>(plteSymbols);
if (exy) {
exy->set_symbol(String2JKQTPgraphSymbols(cmb->itemData(cmb->currentIndex()).toString()));
}
plot->update_plot();
}
}
void TestWidgetGraphs::setSortOrder2(int index)
{
if (index==0) pltePlot2->set_sortData(JKQTPxyLineGraph::Unsorted);
if (index==1) pltePlot2->set_sortData(JKQTPxyLineGraph::SortedX);
if (index==2) pltePlot2->set_sortData(JKQTPxyLineGraph::SortedY);
plotBot->update_plot();
}
void TestWidgetGraphs::setKeyLayout2(JKQTPkeyLayout layout)
{
plot->get_plotter()->set_keyLayout(layout);
plotBot->get_plotter()->set_keyLayout(layout);
plotBot2->get_plotter()->set_keyLayout(layout);
plot->update_plot();
plotBot->update_plot();
plotBot2->update_plot();
}
void TestWidgetGraphs::setKeyPos2(JKQTPkeyPosition layout)
{
plot->get_plotter()->set_keyPosition(layout);
plotBot->get_plotter()->set_keyPosition(layout);
plotBot2->get_plotter()->set_keyPosition(layout);
plot->update_plot();
plotBot->update_plot();
plotBot2->update_plot();
}