org.math.plot.plots.LinePlot Maven / Gradle / Ivy
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package org.math.plot.plots;
import java.awt.*;
import javax.swing.*;
import org.math.plot.*;
import org.math.plot.render.*;
public class LinePlot extends ScatterPlot {
public boolean draw_dot = false;
public LinePlot(String n, Color c, boolean[][] _pattern, double[][] _XY) {
super(n, c, _pattern, _XY);
}
public LinePlot(String n, Color c, int _type, int _radius, double[][] _XY) {
super(n, c, _type, _radius, _XY);
}
public LinePlot(String n, Color c, double[][] _XY) {
super(n, c, _XY);
}
public void plot(AbstractDrawer draw, Color c) {
if (!visible)
return;
if (draw_dot)
super.plot(draw, c);
draw.setColor(c);
draw.setLineType(AbstractDrawer.CONTINOUS_LINE);
for (int i = 0; i < XY.length - 1; i++)
draw.drawLine(XY[i], XY[i + 1]);
}
public static void main(String[] args) {
Plot2DPanel p2 = new Plot2DPanel();
double[][] XYZ = new double[100][2];
for (int j = 0; j < XYZ.length; j++) {
XYZ[j][0] = 2*Math.PI*(double)j/XYZ.length;
XYZ[j][1] = Math.sin(XYZ[j][0]);
}
p2.addLinePlot("sin" , XYZ);
p2.setLegendOrientation(PlotPanel.SOUTH);
new FrameView(p2).setDefaultCloseOperation(JFrame.EXIT_ON_CLOSE);
Plot3DPanel p = new Plot3DPanel();
XYZ = new double[100][3];
for (int j = 0; j < XYZ.length; j++) {
XYZ[j][0] = 2*Math.PI*(double)j/XYZ.length;
XYZ[j][1] = Math.sin(XYZ[j][0]);
XYZ[j][2] = Math.sin(XYZ[j][0])*Math.cos(XYZ[j][1]);
}
p.addLinePlot("toto" , XYZ);
p.setLegendOrientation(PlotPanel.SOUTH);
new FrameView(p).setDefaultCloseOperation(JFrame.EXIT_ON_CLOSE);
}
}
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