/* * This program is free software; you can redistribute it and/or modify * it under the terms of the GNU General Public License as published by * the Free Software Foundation; either version 2 of the License, or * (at your option) any later version. * * This program is distributed in the hope that it will be useful, * but WITHOUT ANY WARRANTY; without even the implied warranty of * MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the * GNU General Public License for more details. * * You should have received a copy of the GNU General Public License * along with this program; if not, write to the Free Software * Foundation, Inc., 675 Mass Ave, Cambridge, MA 02139, USA. */ /* * AttributePanel.java * Copyright (C) 1999 University of Waikato, Hamilton, New Zealand * */ package weka.gui.visualize; import weka.core.Attribute; import weka.core.FastVector; import weka.core.Instances; import java.awt.BorderLayout; import java.awt.Color; import java.awt.Dimension; import java.awt.Graphics; import java.awt.GridBagConstraints; import java.awt.GridBagLayout; import java.awt.Insets; import java.awt.event.MouseAdapter; import java.awt.event.MouseEvent; import javax.swing.JPanel; import javax.swing.JScrollPane; /** * This panel displays one dimensional views of the attributes in a * dataset. Colouring is done on the basis of a column in the dataset or * an auxiliary array (useful for colouring cluster predictions). * * @author Malcolm Ware (mfw4@cs.waikato.ac.nz) * @author Mark Hall (mhall@cs.waikato.ac.nz) * @version $Revision: 5086 $ */ public class AttributePanel extends JScrollPane { /** for serialization */ private static final long serialVersionUID = 3533330317806757814L; /** The instances to be plotted */ protected Instances m_plotInstances=null; /** Holds the min and max values of the colouring attributes */ protected double m_maxC; protected double m_minC; protected int m_cIndex; protected int m_xIndex; protected int m_yIndex; /** The colour map to use for colouring points */ protected FastVector m_colorList; /** default colours for colouring discrete class */ protected Color [] m_DefaultColors = {Color.blue, Color.red, Color.green, Color.cyan, Color.pink, new Color(255, 0, 255), Color.orange, new Color(255, 0, 0), new Color(0, 255, 0), Color.white}; /** * If set, it allows this panel to avoid setting a color in * the color list that is equal to the background color */ protected Color m_backgroundColor = null; /** The list of things listening to this panel */ protected FastVector m_Listeners = new FastVector(); /** Holds the random height for each instance. */ protected int[] m_heights; //protected Color[] colors_array; /** The container window for the attribute bars, and also where the * X,Y or B get printed. */ protected JPanel m_span=null; /** The default colour to use for the background of the bars if a colour is not defined in Visualize.props */ protected Color m_barColour=Color.black; /** inner inner class used for plotting the points * into a bar for a particular attribute. */ protected class AttributeSpacing extends JPanel { /** for serialization */ private static final long serialVersionUID = 7220615894321679898L; /** The min and max values for this attribute. */ protected double m_maxVal; protected double m_minVal; /** The attribute itself. */ protected Attribute m_attrib; /** The index for this attribute. */ protected int m_attribIndex; /** The x position of each point. */ protected int[] m_cached; //note for m_cached, if you wanted to speed up the drawing algorithm // and save memory, the system could be setup to drop out any // of the instances not being drawn (you would need to find a new way //of matching the height however). /** A temporary array used to strike any instances that would be * drawn redundantly. */ protected boolean[][] m_pointDrawn; /** Used to determine if the positions need to be recalculated. */ protected int m_oldWidth=-9000; /** The container window for the attribute bars, and also where the * X,Y or B get printed. */ /** * This constructs the bar with the specified attribute and * sets its index to be used for selecting by the mouse. * @param a The attribute this bar represents. * @param aind The index of this bar. */ public AttributeSpacing(Attribute a, int aind) { m_attrib = a; m_attribIndex = aind; this.setBackground(m_barColour); this.setPreferredSize(new Dimension(0, 20)); this.setMinimumSize(new Dimension(0, 20)); m_cached = new int[m_plotInstances.numInstances()]; //this will only get allocated if m_plotInstances != null //this is used to determine the min and max values for plotting double min=Double.POSITIVE_INFINITY; double max=Double.NEGATIVE_INFINITY; double value; if (m_plotInstances.attribute(m_attribIndex).isNominal()) { m_minVal = 0; m_maxVal = m_plotInstances.attribute(m_attribIndex).numValues()-1; } else { for (int i=0;i max) { max = value; } } } m_minVal = min; m_maxVal = max; if (min == max) { m_maxVal += 0.05; m_minVal -= 0.05; } } this.addMouseListener(new MouseAdapter() { public void mouseClicked(MouseEvent e) { if ((e.getModifiers() & e.BUTTON1_MASK) == e.BUTTON1_MASK) { setX(m_attribIndex); if (m_Listeners.size() > 0) { for (int i=0;i 0) { for (int i=0;i 0 && m_plotInstances.numInstances() > 0) { if (m_oldWidth != h) { m_pointDrawn = new boolean[h][20]; for (int noa = 0; noa < m_plotInstances.numInstances(); noa++) { if (!m_plotInstances.instance(noa).isMissing(m_attribIndex) && !m_plotInstances.instance(noa).isMissing(m_cIndex)) { m_cached[noa] = (int)convertToPanel(m_plotInstances. instance(noa). value(m_attribIndex)); if (m_pointDrawn[m_cached[noa] % h][m_heights[noa]]) { m_cached[noa] = -9000; } else { m_pointDrawn[m_cached[noa]%h][m_heights[noa]] = true; } } else { m_cached[noa] = -9000; //this value will not happen //so it is safe } } m_oldWidth = h; } if (m_plotInstances.attribute(m_cIndex).isNominal()) { for (int noa = 0; noa < m_plotInstances.numInstances(); noa++) { if (m_cached[noa] != -9000) { xp = m_cached[noa]; yp = m_heights[noa]; if (m_plotInstances.attribute(m_attribIndex). isNominal()) { xp += (int)(Math.random() * 5) - 2; } int ci = (int)m_plotInstances.instance(noa).value(m_cIndex); gx.setColor((Color)m_colorList.elementAt (ci % m_colorList.size())); gx.drawRect(xp, yp, 1, 1); } } } else { double r; for (int noa = 0; noa < m_plotInstances.numInstances(); noa++) { if (m_cached[noa] != -9000) { r = (m_plotInstances.instance(noa).value(m_cIndex) - m_minC) / (m_maxC - m_minC); r = (r * 240) + 15; gx.setColor(new Color((int)r,150,(int)(255-r))); xp = m_cached[noa]; yp = m_heights[noa]; if (m_plotInstances.attribute(m_attribIndex). isNominal()) { xp += (int)(Math.random() * 5) - 2; } gx.drawRect(xp, yp, 1, 1); } } } } } } /** * Set the properties for the AttributePanel */ private void setProperties() { if (VisualizeUtils.VISUALIZE_PROPERTIES != null) { String thisClass = this.getClass().getName(); String barKey = thisClass+".barColour"; String barC = VisualizeUtils.VISUALIZE_PROPERTIES. getProperty(barKey); if (barC == null) { /* System.err.println("Warning: no configuration property found in " +VisualizeUtils.PROPERTY_FILE +" for "+barKey); */ } else { //System.err.println("Setting attribute bar colour to: "+barC); m_barColour = VisualizeUtils.processColour(barC, m_barColour); } } } public AttributePanel() { this(null); } /** * This constructs an attributePanel. */ public AttributePanel(Color background) { m_backgroundColor = background; setProperties(); this.setBackground(Color.blue); setVerticalScrollBarPolicy(VERTICAL_SCROLLBAR_ALWAYS); m_colorList = new FastVector(10); for (int noa = m_colorList.size(); noa < 10; noa++) { Color pc = m_DefaultColors[noa % 10]; int ija = noa / 10; ija *= 2; for (int j=0;j 0 && m_cIndex < m_plotInstances.numAttributes()) { if (m_plotInstances.attribute(m_cIndex).isNominal()) { if (m_plotInstances.attribute(m_cIndex).numValues() > m_colorList.size()) { extendColourMap(); } } } this.repaint(); } } /** * Set the index of the attribute by which to colour the data. Updates * the number of entries in the colour list if there are more values * for this new attribute than previous ones. * @param c the index of the attribute to colour on */ public void setCindex(int c) { m_cIndex = c; /* m_maxC = h; m_minC = l; */ if (m_span != null) { if (m_cIndex < m_plotInstances.numAttributes() && m_plotInstances.attribute(m_cIndex).isNumeric()) { double min=Double.POSITIVE_INFINITY; double max=Double.NEGATIVE_INFINITY; double value; for (int i=0;i max) { max = value; } } } m_minC = min; m_maxC = max; } else { if (m_plotInstances.attribute(m_cIndex).numValues() > m_colorList.size()) { extendColourMap(); } } this.repaint(); } } /** * Adds more colours to the colour list */ private void extendColourMap() { if (m_plotInstances.attribute(m_cIndex).isNominal()) { for (int i = m_colorList.size(); i < m_plotInstances.attribute(m_cIndex).numValues(); i++) { Color pc = m_DefaultColors[i % 10]; int ija = i / 10; ija *= 2; for (int j=0;j 512) { throw new Exception("Can't display more than 512 attributes!"); } if (m_span == null) { m_span = new JPanel() { private static final long serialVersionUID = 7107576557995451922L; public void paintComponent(Graphics gx) { super.paintComponent(gx); gx.setColor(Color.red); if (m_yIndex != m_xIndex) { gx.drawString("X", 5, m_xIndex * 20 + 16); gx.drawString("Y", 5, m_yIndex * 20 + 16); } else { gx.drawString("B", 5, m_xIndex * 20 + 16); } } }; } m_span.removeAll(); m_plotInstances = ins; if (ins.numInstances() > 0 && ins.numAttributes() > 0) { JPanel padder = new JPanel(); JPanel padd2 = new JPanel(); /* if (m_splitListener != null) { m_plotInstances.randomize(new Random()); } */ m_heights = new int[ins.numInstances()]; m_cIndex = ins.numAttributes() - 1; for (int noa = 0; noa < ins.numInstances(); noa++) { m_heights[noa] = (int)(Math.random() * 19); } m_span.setPreferredSize(new Dimension(m_span.getPreferredSize().width, (m_cIndex + 1) * 20)); m_span.setMaximumSize(new Dimension(m_span.getMaximumSize().width, (m_cIndex + 1) * 20)); AttributeSpacing tmp; GridBagLayout gb = new GridBagLayout(); GridBagLayout gb2 = new GridBagLayout(); GridBagConstraints constraints = new GridBagConstraints(); padder.setLayout(gb); m_span.setLayout(gb2); constraints.anchor = GridBagConstraints.CENTER; constraints.gridx=0;constraints.gridy=0;constraints.weightx=5; constraints.fill = GridBagConstraints.HORIZONTAL; constraints.gridwidth=1;constraints.gridheight=1; constraints.insets = new Insets(0, 0, 0, 0); padder.add(m_span, constraints); constraints.gridx=0;constraints.gridy=1;constraints.weightx=5; constraints.fill = GridBagConstraints.BOTH; constraints.gridwidth=1;constraints.gridheight=1;constraints.weighty=5; constraints.insets = new Insets(0, 0, 0, 0); padder.add(padd2, constraints); constraints.weighty=0; setViewportView(padder); //getViewport().setLayout(null); //m_span.setMinimumSize(new Dimension(100, (m_cIndex + 1) * 24)); //m_span.setSize(100, (m_cIndex + 1) * 24); constraints.anchor = GridBagConstraints.CENTER; constraints.gridx=0;constraints.gridy=0;constraints.weightx=5; constraints.fill = GridBagConstraints.HORIZONTAL; constraints.gridwidth=1;constraints.gridheight=1;constraints.weighty=5; constraints.insets = new Insets(2,20,2,4); for (int noa = 0; noa < ins.numAttributes(); noa++) { tmp = new AttributeSpacing(ins.attribute(noa), noa); constraints.gridy = noa; m_span.add(tmp, constraints); } } } /** * shows which bar is the current x attribute. * @param x The attributes index. */ public void setX(int x) { if (m_span != null) { m_xIndex = x; m_span.repaint(); } } /** * shows which bar is the current y attribute. * @param y The attributes index. */ public void setY(int y) { if (m_span != null) { m_yIndex = y; m_span.repaint(); } } /** * Main method for testing this class. * @param args first argument should be an arff file. Second argument * can be an optional class col */ public static void main(String [] args) { try { if (args.length < 1) { System.err.println("Usage : weka.gui.visualize.AttributePanel " +" [class col]"); System.exit(1); } final javax.swing.JFrame jf = new javax.swing.JFrame("Weka Explorer: Attribute"); jf.setSize(100,100); jf.getContentPane().setLayout(new BorderLayout()); final AttributePanel p2 = new AttributePanel(); p2.addAttributePanelListener(new AttributePanelListener() { public void attributeSelectionChange(AttributePanelEvent e) { if (e.m_xChange) { System.err.println("X index changed to : "+e.m_indexVal); } else { System.err.println("Y index changed to : "+e.m_indexVal); } } }); jf.getContentPane().add(p2, BorderLayout.CENTER); jf.addWindowListener(new java.awt.event.WindowAdapter() { public void windowClosing(java.awt.event.WindowEvent e) { jf.dispose(); System.exit(0); } }); if (args.length >= 1) { System.err.println("Loading instances from " + args[0]); java.io.Reader r = new java.io.BufferedReader( new java.io.FileReader(args[0])); Instances i = new Instances(r); i.setClassIndex(i.numAttributes()-1); p2.setInstances(i); } if (args.length > 1) { p2.setCindex((Integer.parseInt(args[1]))-1); } else { p2.setCindex(0); } jf.setVisible(true); } catch (Exception ex) { ex.printStackTrace(); System.err.println(ex.getMessage()); } } }