public void setMax(float max) { for (int i = 0; i < maxData.length; i++) { maxData[i] = max; } XYSeriesCollection maxCol = PlotingToolkit.getCollection(xData, maxData, "Max"); XYLineAndShapeRenderer maxRender = new XYLineAndShapeRenderer(true, false); maxRender.setSeriesPaint(0, Color.MAGENTA); previewPlot.getXYPlot().setRenderer(2, maxRender); dataPlot.getXYPlot().setRenderer(2, maxRender); dataPlot.getXYPlot().setDataset(2, maxCol); previewPlot.getXYPlot().setDataset(2, maxCol); }
public void setMin(float min) { for (int i = 0; i < minData.length; i++) { minData[i] = min; } XYSeriesCollection minCol = PlotingToolkit.getCollection(xData, minData, "Min"); XYLineAndShapeRenderer minRender = new XYLineAndShapeRenderer(true, false); minRender.setSeriesPaint(0, Color.RED); previewPlot.getXYPlot().setRenderer(1, minRender); dataPlot.getXYPlot().setRenderer(1, minRender); dataPlot.getXYPlot().setDataset(1, minCol); previewPlot.getXYPlot().setDataset(1, minCol); }
public class AScanViewerTool extends JFrame implements FRG_ViewerListner { FRG_Viewer imageViewPanel = new FRG_Viewer(); JFreeChart previewPlot = PlotingToolkit.getPlot(new float[1], "A Scan", "", ""); JFreeChart dataPlot = PlotingToolkit.getPlot(new float[1], "Log10(A Scan)", "", ""); JButton saveCSVData = new JButton("Save Data"); ChartPanel previewPanel = new ChartPanel(previewPlot); ChartPanel dataPanel = new ChartPanel(dataPlot); HashMap<DynamicRangeImage, Integer> aScanLength = new HashMap<DynamicRangeImage, Integer>(); HashMap<DynamicRangeImage, Double[]> realLength = new HashMap<DynamicRangeImage, Double[]>(); float xDataMin = 0; float xDataMax = 1; float[] xData = new float[0]; float[] aScanData = new float[0]; float[] logData = new float[0]; float[] minData = new float[0]; float[] maxData = new float[0]; int marker = 0; JComboBox aScanType = new JComboBox(new String[] {"None", "Point", "Manual"}); JSlider diffMarker = new JSlider(); public AScanViewerTool() { createJPanel(); imageViewPanel.setListner(this); // aScanLength.put(imageViewPanel.realPanel, 1024); // aScanLength.put(imageViewPanel.imaginaryPanel, 1024); // aScanLength.put(imageViewPanel.phasePanel, 1024); // aScanLength.put(imageViewPanel.magPanel, 1024); // // realLength.put(imageViewPanel.realPanel, new Double[] // { 0., 6. }); // realLength.put(imageViewPanel.imaginaryPanel, new Double[] // { 0., 6. }); // realLength.put(imageViewPanel.phasePanel, new Double[] // { 0., 6. }); // realLength.put(imageViewPanel.magPanel, new Double[] // { 0., 6. }); } public void setFile(File f) throws IOException { imageViewPanel.setFile(f); } public void saveAScanData(File f) throws FileNotFoundException { PrintWriter out = new PrintWriter(f); out.println("Min Window :," + minData[0]); out.println("Max Window :," + maxData[0]); out.println("Pos,Value, log10(value)"); for (int i = 0; i < xData.length; i++) { out.println(xData[i] + "," + aScanData[i] + "," + logData[i]); } out.flush(); out.close(); } public void createJPanel() { JSplitPane graphSplit = new JSplitPane(JSplitPane.VERTICAL_SPLIT); graphSplit.setLeftComponent(previewPanel); graphSplit.setRightComponent(dataPanel); graphSplit.setOneTouchExpandable(true); graphSplit.setDividerLocation(400); JPanel graphHolder = new JPanel(new BorderLayout()); graphHolder.add(graphSplit, BorderLayout.CENTER); graphHolder.setBorder(BorderFactory.createTitledBorder("")); JPanel tool = new JPanel(new BorderLayout()); tool.add(saveCSVData, BorderLayout.SOUTH); tool.add(aScanType, BorderLayout.CENTER); JPanel leftPanel = new JPanel(new BorderLayout()); leftPanel.add(graphHolder, BorderLayout.CENTER); leftPanel.add(tool, BorderLayout.SOUTH); JSplitPane split = new JSplitPane(JSplitPane.HORIZONTAL_SPLIT); split.setOneTouchExpandable(true); split.setRightComponent(imageViewPanel); split.setLeftComponent(leftPanel); split.setDividerLocation(600); JPanel mainPanel = new JPanel(new BorderLayout()); mainPanel.add(split, BorderLayout.CENTER); getContentPane().setLayout(new BorderLayout()); getContentPane().add(mainPanel); aScanType.addActionListener( new ActionListener() { @Override public void actionPerformed(ActionEvent e) { imageViewPanel.setViewType(aScanType.getSelectedIndex()); } }); saveCSVData.addActionListener( new ActionListener() { @Override public void actionPerformed(ActionEvent e) { try { File f = FileSelectionField.getUserFile(); f = FileOperations.renameFileType(f, "csv"); saveAScanData(f); } catch (Exception e1) { JOptionPane.showMessageDialog( null, "Error : " + e1.getLocalizedMessage(), "Error Saving Data", JOptionPane.ERROR_MESSAGE); e1.printStackTrace(); } } }); } public void saveCSVData() {} public static void main(String input[]) throws IOException { SettingsLauncher.setActivePath(AScanViewerTool.class); EditableLAFControler laf = new EditableLAFControler(SettingsLauncher.getPath() + "\\LAF\\"); laf.setLAF(7); AScanViewerTool view = new AScanViewerTool(); view.setSize(1200, 800); view.setDefaultCloseOperation(JFrame.EXIT_ON_CLOSE); view.setVisible(true); // view.setFile(new File("C:\\test\\test2D.FRG")); } @Override public void AScanChanged(DynamicRangeImage src, float[] dataF, int marker) { if (dataF == null || dataF.length == 0) { return; } this.marker = marker; float[] data; if (aScanLength.containsKey(src)) { int length = aScanLength.get(src); data = new float[length]; for (int i = 0; i < length; i++) { data[i] = dataF[i]; } } else { data = dataF; } if (realLength.containsKey(src)) { xDataMin = realLength.get(src)[0].floatValue(); xDataMax = realLength.get(src)[1].floatValue(); } else { xDataMax = data.length; xDataMin = 0; } setAScan(data, marker); setMax((float) src.getMaxSelection()); setMin((float) src.getMinSelection()); } public FRG_Viewer getImageViewPanel() { return imageViewPanel; } public int getAScanLength() { if (aScanLength.containsKey(getImageViewPanel().getCurrentView())) { return aScanLength.get(getImageViewPanel().getCurrentView()); } else { return getImageViewPanel().getCurrentView().getImage().getImage().getHeight(); } } public double[] getDataRange() { if (realLength.containsKey(getImageViewPanel().getCurrentView())) { return new double[] { realLength.get(getImageViewPanel().getCurrentView())[0], realLength.get(getImageViewPanel().getCurrentView())[1] }; } else { return new double[] {0, getAScanLength()}; } } public boolean getLogScaleing() { return imageViewPanel.magPanel.isUseLogScaleing(); } public float getDisplayMaxValue() { return (float) imageViewPanel.magPanel.getMaxSelection(); } public float getDisplayMinValue() { return (float) imageViewPanel.magPanel.getMinSelection(); } public void estimateSurface() {} public void setAScan(float[] aData, int pos) { { if (aData.length != aScanData.length) { xData = new float[aData.length]; maxData = new float[aData.length]; minData = new float[aData.length]; } for (int i = 0; i < xData.length; i++) { xData[i] = xDataMin + (xDataMax - xDataMin) * (i / ((float) xData.length - 1)); } aScanData = aData; XYSeriesCollection datCol1 = PlotingToolkit.getCollection(xData, aScanData, "Data"); XYSeriesCollection datCol2 = PlotingToolkit.getCollection( new float[] {xData[pos]}, new float[] {aScanData[pos]}, "Data"); previewPlot.getXYPlot().setDataset(0, datCol1); previewPlot.getXYPlot().setDataset(3, datCol2); XYLineAndShapeRenderer dataRender1 = new XYLineAndShapeRenderer(true, false); XYLineAndShapeRenderer dataRender2 = new XYLineAndShapeRenderer(false, true); dataRender1.setSeriesPaint(0, Color.CYAN); dataRender2.setSeriesPaint(0, Color.RED); previewPlot.getXYPlot().setRenderer(0, dataRender1); previewPlot.getXYPlot().setRenderer(3, dataRender2); } /* * Log Data */ { logData = aScanData.clone(); for (int i = 0; i < logData.length; i++) { if (logData[i] < 0.0001f) { logData[i] += 0.0001f; } logData[i] = (float) Math.log(logData[i]); } XYSeriesCollection logCol = PlotingToolkit.getCollection(xData, logData, "Data"); XYSeriesCollection datCol2 = PlotingToolkit.getCollection( new float[] {xData[pos]}, new float[] {logData[pos]}, "Data"); dataPlot.getXYPlot().setDataset(0, logCol); dataPlot.getXYPlot().setDataset(3, datCol2); // Set the rendering XYLineAndShapeRenderer dataRender = new XYLineAndShapeRenderer(true, false); XYLineAndShapeRenderer dataRender2 = new XYLineAndShapeRenderer(false, true); dataRender2.setSeriesPaint(0, Color.RED); dataRender.setSeriesPaint(0, Color.CYAN); dataPlot.getXYPlot().setRenderer(0, dataRender); dataPlot.getXYPlot().setRenderer(3, dataRender2); } } public void setMax(float max) { for (int i = 0; i < maxData.length; i++) { maxData[i] = max; } XYSeriesCollection maxCol = PlotingToolkit.getCollection(xData, maxData, "Max"); XYLineAndShapeRenderer maxRender = new XYLineAndShapeRenderer(true, false); maxRender.setSeriesPaint(0, Color.MAGENTA); previewPlot.getXYPlot().setRenderer(2, maxRender); dataPlot.getXYPlot().setRenderer(2, maxRender); dataPlot.getXYPlot().setDataset(2, maxCol); previewPlot.getXYPlot().setDataset(2, maxCol); } public void setMin(float min) { for (int i = 0; i < minData.length; i++) { minData[i] = min; } XYSeriesCollection minCol = PlotingToolkit.getCollection(xData, minData, "Min"); XYLineAndShapeRenderer minRender = new XYLineAndShapeRenderer(true, false); minRender.setSeriesPaint(0, Color.RED); previewPlot.getXYPlot().setRenderer(1, minRender); dataPlot.getXYPlot().setRenderer(1, minRender); dataPlot.getXYPlot().setDataset(1, minCol); previewPlot.getXYPlot().setDataset(1, minCol); } }
public void setAScan(float[] aData, int pos) { { if (aData.length != aScanData.length) { xData = new float[aData.length]; maxData = new float[aData.length]; minData = new float[aData.length]; } for (int i = 0; i < xData.length; i++) { xData[i] = xDataMin + (xDataMax - xDataMin) * (i / ((float) xData.length - 1)); } aScanData = aData; XYSeriesCollection datCol1 = PlotingToolkit.getCollection(xData, aScanData, "Data"); XYSeriesCollection datCol2 = PlotingToolkit.getCollection( new float[] {xData[pos]}, new float[] {aScanData[pos]}, "Data"); previewPlot.getXYPlot().setDataset(0, datCol1); previewPlot.getXYPlot().setDataset(3, datCol2); XYLineAndShapeRenderer dataRender1 = new XYLineAndShapeRenderer(true, false); XYLineAndShapeRenderer dataRender2 = new XYLineAndShapeRenderer(false, true); dataRender1.setSeriesPaint(0, Color.CYAN); dataRender2.setSeriesPaint(0, Color.RED); previewPlot.getXYPlot().setRenderer(0, dataRender1); previewPlot.getXYPlot().setRenderer(3, dataRender2); } /* * Log Data */ { logData = aScanData.clone(); for (int i = 0; i < logData.length; i++) { if (logData[i] < 0.0001f) { logData[i] += 0.0001f; } logData[i] = (float) Math.log(logData[i]); } XYSeriesCollection logCol = PlotingToolkit.getCollection(xData, logData, "Data"); XYSeriesCollection datCol2 = PlotingToolkit.getCollection( new float[] {xData[pos]}, new float[] {logData[pos]}, "Data"); dataPlot.getXYPlot().setDataset(0, logCol); dataPlot.getXYPlot().setDataset(3, datCol2); // Set the rendering XYLineAndShapeRenderer dataRender = new XYLineAndShapeRenderer(true, false); XYLineAndShapeRenderer dataRender2 = new XYLineAndShapeRenderer(false, true); dataRender2.setSeriesPaint(0, Color.RED); dataRender.setSeriesPaint(0, Color.CYAN); dataPlot.getXYPlot().setRenderer(0, dataRender); dataPlot.getXYPlot().setRenderer(3, dataRender2); } }