/* public void addMiniChart(Plugin p){ components.add(p); rebuild(); } public void removeMiniChart(Plugin p){ components.remove(p); rebuild(); } */ public void rebuild() { // remove everything from main panel mainpanel.removeAll(); GridBagLayout gbl = new GridBagLayout(); GridBagConstraints gbc = new GridBagConstraints(); mainpanel.setLayout(gbl); gbc.anchor = gbc.NORTHWEST; gbc.fill = gbc.BOTH; gbc.weightx = 1; gbc.gridx = 0; int i = 0; // add chart gbc.weighty = 1; gbc.gridy = i; gbl.setConstraints(chartPanel, gbc); mainpanel.add(chartPanel); // add all other plugins/components validate(); }
public ChartWindow(String title) { this.symbol = title; thisp = this; // initialize the main layout setTitle(title); mainpanel = new JPanel(); GridBagLayout gbl = new GridBagLayout(); GridBagConstraints gbc = new GridBagConstraints(); mainpanel.setLayout(gbl); // build a toolbar // add a plain status bar this.statusLine = new JLabel("Done"); this.getContentPane().add(statusLine, BorderLayout.SOUTH); statusLine.setBackground(new Color(0, 0, 0)); statusLine.setForeground(new Color(255, 255, 255)); statusLine.setOpaque(true); // x1 = new TimeSeries("symbol", FixedMillisecond.class); dataset1.addSeries(x1); System.out.println("Populated."); // chart = createChart(dataset1); System.out.println("constr."); // chart.getXYPlot().setOrientation(PlotOrientation.VERTICAL); chart.setAntiAlias(false); chartPanel = new ChartPanel(chart); // int i = 0; gbc.anchor = gbc.NORTHWEST; gbc.fill = gbc.BOTH; gbc.weightx = 1; gbc.gridx = 0; gbc.weighty = 1; gbc.gridy = i; gbl.setConstraints(chartPanel, gbc); mainpanel.add(chartPanel); // System.out.println("add"); setVisible(true); setSize(new Dimension(400, 300)); // chartPanel.setPopupMenu(buildPopupMenu()); chartPanel.setMouseZoomable(true); chartPanel.setHorizontalAxisTrace(true); chartPanel.setVerticalAxisTrace(true); chartPanel.setHorizontalZoom(true); chartPanel.setOpaque(true); chartPanel.setBackground(new Color(0, 0, 0)); this.getContentPane().add(mainpanel, BorderLayout.CENTER); this.setSize(600, 400); this.toFront(); this.show(); }
/** Fills the panel with event specific fields. */ protected void fillPanel() { JLabel l; Box fdp = Box.createVerticalBox(); fdp.setBorder(BorderFactory.createTitledBorder("Fundamental Diagram")); fdChart = makeFDChart(); ChartPanel cp = new ChartPanel(fdChart); cp.setMinimumDrawWidth(100); cp.setMinimumDrawHeight(60); cp.setPreferredSize(new Dimension(250, 80)); fdp.add(new JScrollPane(cp)); JPanel prmp = new JPanel(new SpringLayout()); l = new JLabel("Capacity:", JLabel.TRAILING); prmp.add(l); spinMaxFlow = new JSpinner(new SpinnerNumberModel(mf, 0, 99999, 1.0)); spinMaxFlow.setEditor(new JSpinner.NumberEditor(spinMaxFlow, "####0.00")); spinMaxFlow.addChangeListener(this); spinMaxFlow.setName(nmSpinMaxFlow); l.setLabelFor(spinMaxFlow); prmp.add(spinMaxFlow); l = new JLabel("Cap.Drop:", JLabel.TRAILING); prmp.add(l); spinCapDrop = new JSpinner(new SpinnerNumberModel(drp, 0, 99999, 1.0)); spinCapDrop.setEditor(new JSpinner.NumberEditor(spinCapDrop, "####0.00")); spinCapDrop.addChangeListener(this); spinCapDrop.setName(nmSpinCapDrop); l.setLabelFor(spinCapDrop); prmp.add(spinCapDrop); l = new JLabel("C.Density:", JLabel.TRAILING); prmp.add(l); spinCritDen = new JSpinner(new SpinnerNumberModel(cd, 0, 99999, 1.0)); spinCritDen.setEditor(new JSpinner.NumberEditor(spinCritDen, "####0.00")); spinCritDen.addChangeListener(this); spinCritDen.setName(nmSpinCritDen); l.setLabelFor(spinCritDen); prmp.add(spinCritDen); l = new JLabel(" V:", JLabel.TRAILING); prmp.add(l); spinVff = new JSpinner(new SpinnerNumberModel(mf / cd, 0, 200, 1.0)); spinVff.setEditor(new JSpinner.NumberEditor(spinVff, "#0.00")); spinVff.addChangeListener(this); spinVff.setName(nmSpinVff); l.setLabelFor(spinVff); prmp.add(spinVff); l = new JLabel("J.Density:", JLabel.TRAILING); prmp.add(l); spinJamDen = new JSpinner(new SpinnerNumberModel(jd, 0, 99999, 1.0)); spinJamDen.setEditor(new JSpinner.NumberEditor(spinJamDen, "####0.00")); spinJamDen.addChangeListener(this); spinJamDen.setName(nmSpinJamDen); l.setLabelFor(spinJamDen); prmp.add(spinJamDen); l = new JLabel(" W:", JLabel.TRAILING); prmp.add(l); if (jd == cd) jd = cd + 1; int ulim = (int) Math.max(Math.ceil(mf / (jd - cd)), 999); spinWc = new JSpinner(new SpinnerNumberModel(mf / (jd - cd), 0, ulim, 1.0)); spinWc.setEditor(new JSpinner.NumberEditor(spinWc, "#0.00")); spinWc.addChangeListener(this); spinWc.setName(nmSpinWc); l.setLabelFor(spinWc); prmp.add(spinWc); SpringUtilities.makeCompactGrid(prmp, 3, 4, 2, 2, 2, 2); fdp.add(prmp); // add(new JScrollPane(fdp)); add(fdp); return; }
@Analyzer( name = "Event Data Attribute Visualizer", names = {"Log"}) public JComponent analyze(LogReader log) { /* * this plugin takes a log, shows a list of available data-attributes * and a list of cases After selecting a data-attribute (and possibly a * case) a graph is made of the value of the data-attribute against * either time or against the sequence of events. * * input: log with data attributes gui-input: select a data-attribute, * choose time or event-sequence, and possibly a case * * internally : if not caseselected -> scatterplot of values against * time/event-number else show graph for value against time/event-number * * createGraph : check number / string */ mylog = log; mainPanel = new JPanel(); mainPanel.setLayout(new BorderLayout()); chartPanel = new JPanel(); chartPanel.setLayout(new BoxLayout(chartPanel, BoxLayout.PAGE_AXIS)); optionsPanel = new JPanel(); optionsPanel.setLayout(new SpringLayout()); JLabel attributelabel = new JLabel("Select attributes to use"); attributeslist = new JList(getAttributes()); attributeslist.setSelectionMode(ListSelectionModel.MULTIPLE_INTERVAL_SELECTION); attributeslist.setLayoutOrientation(JList.VERTICAL); optionsPanel.add(attributelabel); optionsPanel.add(attributeslist); JLabel xlabel = new JLabel("Chart type"); String[] xvalues = new String[4]; xvalues[0] = " Attribute values against event sequence"; xvalues[1] = "Attribute values against timestamps"; xvalues[2] = "Average attribute values against event sequence"; xvalues[3] = "Average attribute values against timestamps"; xbox = new JComboBox(xvalues); xbox.setMaximumSize(xbox.preferredSize()); xbox.setSelectedIndex(1); xbox.addActionListener( new ActionListener() { public void actionPerformed(ActionEvent e) { JComboBox cb = (JComboBox) e.getSource(); if (cb.getSelectedIndex() == 3) { BSpinner.setVisible(true); } else { BSpinner.setVisible(false); } }; }); optionsPanel.add(xlabel); optionsPanel.add(xbox); JLabel timelabel = new JLabel("show time by "); String[] timevalues = new String[4]; timevalues[0] = "second"; timevalues[1] = "minute"; timevalues[2] = "hour"; timevalues[3] = "day"; timebox = new JComboBox(timevalues); timebox.setMaximumSize(timebox.preferredSize()); timebox.setSelectedIndex(1); optionsPanel.add(timelabel); optionsPanel.add(timebox); SpinnerModel Bmodel = new SpinnerNumberModel(10, 2, 1000000, 1); BSpinner = new JSpinner(Bmodel); JLabel BLabel = new JLabel("Select histogram barsize"); JLabel B2Label = new JLabel("used for average against timestamps"); BSpinner.setMaximumSize(BSpinner.preferredSize()); BSpinner.setVisible(false); optionsPanel.add(BLabel); optionsPanel.add(B2Label); optionsPanel.add(BSpinner); JButton updatebutton = new JButton("update"); updatebutton.addActionListener( new ActionListener() { public void actionPerformed(ActionEvent e) { Object[] sels = attributeslist.getSelectedValues(); String[] els = new String[sels.length]; for (int i = 0; i < sels.length; i++) { els[i] = sels[i].toString(); } long timesize = 1000; switch (timebox.getSelectedIndex()) { case 0: timesize = 1000; break; case 1: timesize = 1000 * 60; break; case 2: timesize = 1000 * 60 * 60; break; case 3: timesize = 1000 * 60 * 60 * 24; break; } String xname = null; JFreeChart mychart = null; if (xbox.getSelectedIndex() == 0) { data = getDataAttributes(els, false, timesize); xname = "Event sequence"; mychart = ChartFactory.createScatterPlot( "Scatterplot of all values", xname, "attribute value", data, PlotOrientation.VERTICAL, true, true, false); } else if (xbox.getSelectedIndex() == 1) { data = getDataAttributes(els, true, timesize); xname = "Time(" + timebox.getSelectedItem() + ") since beginning of the process"; mychart = ChartFactory.createScatterPlot( "Scatterplot of all values", xname, "attribute value", data, PlotOrientation.VERTICAL, true, true, false); } else if (xbox.getSelectedIndex() == 2) { xname = "Event sequence"; data = getHistrogrammedDataAttributes(els, 1, 1); mychart = ChartFactory.createXYLineChart( "Average values", xname, "attribute value", data, PlotOrientation.VERTICAL, true, true, false); mychart.setBackgroundPaint(Color.white); XYPlot plot = mychart.getXYPlot(); plot.setBackgroundPaint(Color.white); plot.setDomainGridlinePaint(Color.white); plot.setRangeGridlinePaint(Color.white); DeviationRenderer renderer = new DeviationRenderer(true, true); renderer.setSeriesStroke( 0, new BasicStroke(3.0f, BasicStroke.CAP_ROUND, BasicStroke.JOIN_ROUND)); renderer.setSeriesStroke(0, new BasicStroke(2.0f)); renderer.setSeriesStroke(1, new BasicStroke(2.0f)); renderer.setSeriesStroke(2, new BasicStroke(2.0f)); renderer.setSeriesStroke(3, new BasicStroke(2.0f)); renderer.setSeriesFillPaint(0, Color.red); renderer.setSeriesFillPaint(1, Color.blue); renderer.setSeriesFillPaint(2, Color.green); renderer.setSeriesFillPaint(3, Color.orange); plot.setRenderer(renderer); // change the auto tick unit selection to integer units // only... NumberAxis yAxis = (NumberAxis) plot.getRangeAxis(); // yAxis.setAutoRangeIncludesZero(false); yAxis.setStandardTickUnits(NumberAxis.createIntegerTickUnits()); NumberAxis xAxis = (NumberAxis) plot.getDomainAxis(); xAxis.setStandardTickUnits(NumberAxis.createIntegerTickUnits()); } else { xname = "Time(" + timebox.getSelectedItem() + "s) since beginning of the process"; data = getHistrogrammedDataAttributes( els, ((Integer) BSpinner.getValue()) * timesize, timesize); mychart = ChartFactory.createXYLineChart( "Average values", xname, "attribute value", data, PlotOrientation.VERTICAL, true, true, false); mychart.setBackgroundPaint(Color.white); XYPlot plot = mychart.getXYPlot(); plot.setBackgroundPaint(Color.white); plot.setDomainGridlinePaint(Color.white); plot.setRangeGridlinePaint(Color.white); DeviationRenderer renderer = new DeviationRenderer(true, true); renderer.setSeriesStroke( 0, new BasicStroke(3.0f, BasicStroke.CAP_ROUND, BasicStroke.JOIN_ROUND)); renderer.setSeriesStroke(0, new BasicStroke(2.0f)); renderer.setSeriesStroke(1, new BasicStroke(2.0f)); renderer.setSeriesStroke(2, new BasicStroke(2.0f)); renderer.setSeriesStroke(3, new BasicStroke(2.0f)); renderer.setSeriesFillPaint(0, Color.red); renderer.setSeriesFillPaint(1, Color.blue); renderer.setSeriesFillPaint(2, Color.green); renderer.setSeriesFillPaint(3, Color.orange); plot.setRenderer(renderer); // change the auto tick unit selection to integer units // only... NumberAxis yAxis = (NumberAxis) plot.getRangeAxis(); // yAxis.setAutoRangeIncludesZero(false); yAxis.setStandardTickUnits(NumberAxis.createIntegerTickUnits()); } ChartPanel mychartpanel = new ChartPanel(mychart); mychartpanel.setBackground(Color.white); chartPanel.removeAll(); chartPanel.add(mychartpanel); chartPanel.updateUI(); }; }); optionsPanel.add(updatebutton); JSplitPane splitPanel = new JSplitPane(JSplitPane.HORIZONTAL_SPLIT, optionsPanel, chartPanel); SpringUtils.makeCompactGrid( optionsPanel, 10, 1, // rows, cols 6, 2, // initX, initY 6, 2); // xPad, yPad mainPanel.add(splitPanel, BorderLayout.CENTER); return mainPanel; }