private static void go() { int n1 = 101; int n2 = 101; // float[][] f = sin(rampfloat(0.0f,0.1f,0.1f,n1,n2)); float[][] f = zerofloat(n1, n2); PlotPanel.Orientation orientation = PlotPanel.Orientation.X1DOWN_X2RIGHT; PlotPanel panel = new PlotPanel(orientation); PixelsView pv = panel.addPixels(f); pv.setInterpolation(PixelsView.Interpolation.NEAREST); pv.setColorModel(ColorMap.JET); panel.addColorBar("time"); panel.setVLabel("depth (km)"); panel.setHLabel("distance (km)"); PlotFrame frame = new PlotFrame(panel); frame.setDefaultCloseOperation(PlotFrame.EXIT_ON_CLOSE); frame.setSize(800, 700); frame.setFontSize(24); frame.setVisible(true); ModeManager mm = frame.getModeManager(); ImageEditMode iem = new ImageEditMode(mm, pv, 0.0f, f); iem.setActive(true); }
/** * Computes and plots correlation functions * * @param tauMax is the maximum time for correlation functions */ public void computeCorrelation(int tauMax) { plotFrame.clearData(); double energyAccumulator = 0, magnetizationAccumulator = 0; double energySquaredAccumulator = 0, magnetizationSquaredAccumulator = 0; for (int t = 0; t < numberOfPoints; t++) { energyAccumulator += energy[t]; magnetizationAccumulator += magnetization[t]; energySquaredAccumulator += energy[t] * energy[t]; magnetizationSquaredAccumulator += magnetization[t] * magnetization[t]; } double averageEnergySquared = Math.pow(energyAccumulator / numberOfPoints, 2); double averageMagnetizationSquared = Math.pow(magnetizationAccumulator / numberOfPoints, 2); // compute normalization factors double normE = (energySquaredAccumulator / numberOfPoints) - averageEnergySquared; double normM = (magnetizationSquaredAccumulator / numberOfPoints) - averageMagnetizationSquared; for (int tau = 1; tau <= tauMax; tau++) { double c_MAccumulator = 0; double c_EAccumulator = 0; int counter = 0; for (int t = 0; t < numberOfPoints - tau; t++) { c_MAccumulator += magnetization[t] * magnetization[t + tau]; c_EAccumulator += energy[t] * energy[t + tau]; counter++; } // correlation function defined so that c(0) = 1 and c(infinity) -> 0 plotFrame.append(0, tau, ((c_MAccumulator / counter) - averageMagnetizationSquared) / normM); plotFrame.append(1, tau, ((c_EAccumulator / counter) - averageEnergySquared) / normE); } plotFrame.setVisible(true); }
private static void test2() { int n1 = 11; int n2 = 11; float d1 = 1.0f / (float) max(1, n1 - 1); float d2 = 1.0f / (float) max(1, n2 - 1); float[][] f0 = rampfloat(0.0f, d1, d2, n1, n2); float[][] f1 = zerofloat(n1, n2); float[][] f2 = zerofloat(n1, n2); // float[][] f1 = rampfloat(0.0f,d1,d2,n1,n2); // float[][] f2 = rampfloat(0.0f,d1,d2,n1,n2); Sampling s1 = new Sampling(n1, 0.5, 0.25 * (n1 - 1)); Sampling s2 = new Sampling(n2, 0.5, 0.25 * (n2 - 1)); PlotPanel panel = new PlotPanel(1, 2); PixelsView pv0 = panel.addPixels(0, 0, new float[][][] {f0, f1, f2}); pv0.setInterpolation(PixelsView.Interpolation.NEAREST); pv0.setClips(0, 0.0f, 2.0f); pv0.setClips(1, 0.0f, 2.0f); pv0.setClips(2, 0.0f, 2.0f); pv0.set(new float[][][] {f0, f1, f2}); // should have no effect! PixelsView pv0b = panel.addPixels(0, 0, s1, s2, new float[][][] {f1, f0, f2}); pv0b.setInterpolation(PixelsView.Interpolation.LINEAR); pv0b.setClips(0, 0.0f, 2.0f); pv0b.setClips(1, 0.0f, 2.0f); pv0b.setClips(2, 0.0f, 2.0f); PixelsView pv1 = panel.addPixels(0, 1, new float[][][] {f1, f2, f0}); pv1.setInterpolation(PixelsView.Interpolation.LINEAR); pv1.setClips(0, 0.0f, 2.0f); pv1.setClips(1, 0.0f, 2.0f); pv1.setClips(2, 0.0f, 2.0f); PixelsView pv1b = panel.addPixels(0, 1, s1, s2, new float[][][] {f1, f0, f2}); pv1b.setInterpolation(PixelsView.Interpolation.NEAREST); pv1b.setClips(0, 0.0f, 2.0f); pv1b.setClips(1, 0.0f, 2.0f); pv1b.setClips(2, 0.0f, 2.0f); PlotFrame frame = new PlotFrame(panel); frame.setDefaultCloseOperation(PlotFrame.EXIT_ON_CLOSE); frame.setVisible(true); // frame.paintToPng(300,6,"junk.png"); }
private static void test1() { int n1 = 11; int n2 = 11; float d1 = 1.0f / (float) max(1, n1 - 1); float d2 = 1.0f / (float) max(1, n2 - 1); float[][] f = rampfloat(0.0f, d1, d2, n1, n2); Sampling s1 = new Sampling(n1, 0.5, 0.25 * (n1 - 1)); Sampling s2 = new Sampling(n2, 0.5, 0.25 * (n2 - 1)); PlotPanel panel = new PlotPanel(1, 2); PixelsView pv0 = panel.addPixels(0, 0, f); pv0.setInterpolation(PixelsView.Interpolation.NEAREST); pv0.setColorModel(ColorMap.JET); pv0.setPercentiles(0.0f, 100.0f); f = mul(10.0f, f); pv0.set(f); PixelsView pv0b = panel.addPixels(0, 0, s1, s2, f); pv0b.setInterpolation(PixelsView.Interpolation.LINEAR); pv0b.setColorModel(ColorMap.GRAY); pv0b.setPercentiles(0.0f, 100.0f); PixelsView pv1 = panel.addPixels(0, 1, f); pv1.setInterpolation(PixelsView.Interpolation.LINEAR); pv1.setColorModel(ColorMap.GRAY); pv1.setPercentiles(0.0f, 100.0f); f = mul(10.0f, f); pv1.set(f); PixelsView pv1b = panel.addPixels(0, 1, s1, s2, f); pv1b.setInterpolation(PixelsView.Interpolation.NEAREST); pv1b.setColorModel(ColorMap.JET); pv1b.setPercentiles(0.0f, 100.0f); PlotFrame frame = new PlotFrame(panel); frame.setDefaultCloseOperation(PlotFrame.EXIT_ON_CLOSE); frame.setVisible(true); // frame.paintToPng(300,6,"junk.png"); }