mirror of
https://github.com/jkriege2/JKQtPlotter.git
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192 lines
5.8 KiB
C++
192 lines
5.8 KiB
C++
/** \example jkqtfastplotter_test_testmain.cpp
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* Example of how to use JKQTFastPlotter
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* \see \ref JKQTFastPlotterTest
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*/
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#include "jkqtfastplotter_test_testmain.h"
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#include <QCheckBox>
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#include <QtGui>
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TestMain::TestMain(QWidget *parent) :
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QWidget(parent)
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{
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imageRed=(double*)calloc(IMAGE_N*IMAGE_N, sizeof(double));
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imageGreen=(double*)calloc(IMAGE_N*IMAGE_N, sizeof(double));
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imageBlue=(double*)calloc(IMAGE_N*IMAGE_N, sizeof(double));
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image=(double*)calloc(IMAGE_N*IMAGE_N, sizeof(double));
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ovrl=(bool*)calloc(IMAGE_N*IMAGE_N, sizeof(bool));
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x=(double*)calloc(N1, sizeof(double));
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y1=(double*)calloc(N1, sizeof(double));
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y2=(double*)calloc(N1, sizeof(double));
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y3=(double*)calloc(N1, sizeof(double));
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QGridLayout* gl=new QGridLayout();
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setLayout(gl);
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QTabWidget* t=new QTabWidget(this);
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gl->addWidget(t,0,0);
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QWidget* w=new QWidget(this);
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gl=new QGridLayout(w);
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w->setLayout(gl);
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JKQTFastPlotter* pl1=new JKQTFastPlotter(w);
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pl1->setMaintainAspectRatio(true);
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gl->addWidget(pl1, 0, 0);
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JKQTFastPlotter* pl2=new JKQTFastPlotter(w);
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pl2->setMaximumWidth(100);
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pl2->setSynchronizeY(pl1);
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pl2->setYAxisLabelVisible(false);
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pl2->setPlotBorderLeft(10);
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pl2->setPlotBorderRight(2);
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w->connect(pl1, SIGNAL(replotting()), pl2, SLOT(redrawPlot()));
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gl->addWidget(pl2, 0, 1);
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JKQTFastPlotter* pl3=new JKQTFastPlotter(w);
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pl3->setSynchronizeX(pl1);
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w->connect(pl1, SIGNAL(replotting()), pl3, SLOT(redrawPlot()));
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gl->addWidget(pl3, 1, 0);
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xx.clear();
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yy.clear();
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for (int i=0; i<N1; i++) {
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x[i]=(i+1)*XMAX/(double)N1;
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xx.push_back(x[i]);
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yy.push_back(sin(0.5*JKQTPSTATISTICS_PI*x[i])+2.0);
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std::cout<<xx[i]<<", "<<yy[i]<<std::endl;
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y1[i]=i*XMAX/(double)N1;
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y2[i]=log(x[i]);
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y3[i]=log10(x[i]);
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}
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JKQTFPVBarPlot* p1=new JKQTFPVBarPlot(pl1, N1, x, y1);
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JKQTFPLinePlot* p2=new JKQTFPLinePlot(pl1, N1, x, y2, QColor("blue"));
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JKQTFPLinePlot* p3=new JKQTFPLinePlot(pl1, N1, x, y3, QColor("darkgreen"));
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JKQTFPLinePlot* pv=new JKQTFPLinePlot(pl1, &xx, &yy, QColor("black"), Qt::SolidLine, 3);
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img=QImage(":/lena.png");
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JKQTFPQImagePlot* p4=new JKQTFPQImagePlot(pl2, &img, 0, 10, 0, 10);
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for (int x=0; x<IMAGE_N; x++) {
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for (int y=0; y<IMAGE_N; y++) {
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image[y*IMAGE_N+x]=IMAGE_N*(1.1+sin(sqrt((x-50)*(x-50)+(y-50)*(y-50))));
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if (x>50 && y>50) image[y*IMAGE_N+x]=0;
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if (x<50 && y<50) image[y*IMAGE_N+x]=50;
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if (abs(x-(IMAGE_N-y))<4) ovrl[y*IMAGE_N+x]=true; else ovrl[y*IMAGE_N+x]=false;
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}
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}
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JKQTFPimagePlot* p5=new JKQTFPimagePlot(pl3, image, JKQTFP_double, IMAGE_N, IMAGE_N, 0, 10, 0, 10, JKQTFP_GRAY);
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QColor col=QColor("red");
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col.setAlpha(127);
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JKQTFPimageOverlayPlot* p5o=new JKQTFPimageOverlayPlot(pl3, ovrl, IMAGE_N, IMAGE_N, 0, 10, 0, 10, col);
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JKQTFPXRangePlot* p6=new JKQTFPXRangePlot(pl1, 2.25, 7.75);
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p6->setFillStyle(Qt::SolidPattern);
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JKQTFPQScaleBarXPlot* sb=new JKQTFPQScaleBarXPlot(pl1, 1, QString("%1 mm"));
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pl1->addPlot(p6);
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pl1->addPlot(p1);
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pl1->addPlot(p2);
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pl1->addPlot(p3);
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pl1->addPlot(pv);
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pl1->addPlot(sb);
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pl2->addPlot(p4);
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pl3->addPlot(p5);
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pl3->addPlot(p5o);
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pl3->setObjectName("pl3");
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QComboBox* spin=new QComboBox(w);
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spin->addItems(JKQTFPimagePlot_getPalettes());
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gl->addWidget(spin, 2,0);
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connect(spin, SIGNAL(currentIndexChanged(int)), p5, SLOT(setPalette(int)));
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QComboBox* scale=new QComboBox(w);
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scale->addItem("TopLeft");
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scale->addItem("TopRight");
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scale->addItem("BottomLeft");
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scale->addItem("BottomRight");
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gl->addWidget(scale, 3,0);
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connect(scale, SIGNAL(currentIndexChanged(int)), sb, SLOT(setPosition(int)));
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t->addTab(w, tr("Basic Test"));
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w=new QWidget(this);
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gl=new QGridLayout(w);
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w->setLayout(gl);
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JKQTFastPlotter* p21=new JKQTFastPlotter(w);
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gl->addWidget(p21, 0, 0, 1, 3);
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for (int x=0; x<IMAGE_N; x++) {
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for (int y=0; y<IMAGE_N; y++) {
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imageRed[y*IMAGE_N+x]=static_cast<double>(std::abs(x)+std::abs(y))/2.0;
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imageGreen[y*IMAGE_N+x]=(fabs(double(IMAGE_N)-x)+static_cast<double>(std::abs(y)))/2.0;
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imageBlue[y*IMAGE_N+x]=sqrt(x*x+y*y);
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}
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}
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prgb=new JKQTFPRGBImageOverlayPlot(p21);
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prgb->setImage(imageRed, JKQTFP_double, imageGreen, JKQTFP_double, imageBlue, JKQTFP_double, IMAGE_N, IMAGE_N,0,10,0,10);
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p21->addPlot(prgb);
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QCheckBox* c=new QCheckBox(tr("red channel"), w);
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c->setChecked(true);
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connect(c, SIGNAL(toggled(bool)), this, SLOT(enableRed(bool)));
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gl->addWidget(c, 1,0);
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c=new QCheckBox(tr("green channel"), w);
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c->setChecked(true);
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connect(c, SIGNAL(toggled(bool)), this, SLOT(enableGreen(bool)));
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gl->addWidget(c, 1,1);
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c=new QCheckBox(tr("blue channel"), w);
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c->setChecked(true);
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connect(c, SIGNAL(toggled(bool)), this, SLOT(enableBlue(bool)));
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gl->addWidget(c, 1,2);
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t->addTab(w, tr("Overlay Test"));
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t->setCurrentIndex(1);
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resize(500,400);
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}
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TestMain::~TestMain() {
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free(imageRed);
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free(imageGreen);
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free(imageBlue);
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free(image);
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free(ovrl);
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free(x);
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free(y1);
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free(y2);
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free(y3);
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}
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void TestMain::enableRed(bool enabled) {
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if (enabled) {
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prgb->setImageRed(imageRed, JKQTFP_double);
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} else {
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prgb->setImageRed(NULL, JKQTFP_double);
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}
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}
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void TestMain::enableGreen(bool enabled) {
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if (enabled) {
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prgb->setImageGreen(imageGreen, JKQTFP_double);
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} else {
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prgb->setImageGreen(NULL, JKQTFP_double);
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}
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}
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void TestMain::enableBlue(bool enabled) {
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if (enabled) {
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prgb->setImageBlue(imageBlue, JKQTFP_double);
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} else {
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prgb->setImageBlue(NULL, JKQTFP_double);
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}
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}
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