source: src/main/java/weka/gui/visualize/PlotData2D.java @ 20

Last change on this file since 20 was 4, checked in by gnappo, 14 years ago

Import di weka.

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1/*
2 *    This program is free software; you can redistribute it and/or modify
3 *    it under the terms of the GNU General Public License as published by
4 *    the Free Software Foundation; either version 2 of the License, or
5 *    (at your option) any later version.
6 *
7 *    This program is distributed in the hope that it will be useful,
8 *    but WITHOUT ANY WARRANTY; without even the implied warranty of
9 *    MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE.  See the
10 *    GNU General Public License for more details.
11 *
12 *    You should have received a copy of the GNU General Public License
13 *    along with this program; if not, write to the Free Software
14 *    Foundation, Inc., 675 Mass Ave, Cambridge, MA 02139, USA.
15 */
16
17/*
18 *    PlotData2D.java
19 *    Copyright (C) 2000 University of Waikato, Hamilton, New Zealand
20 *
21 */
22
23
24package weka.gui.visualize;
25
26import weka.core.FastVector;
27import weka.core.Instances;
28import weka.filters.Filter;
29import weka.filters.unsupervised.attribute.Add;
30
31import java.awt.Color;
32
33/**
34 * This class is a container for plottable data. Instances form the
35 * primary data. An optional array of classifier/clusterer predictions
36 * (associated 1 for 1 with the instances) can also be provided.
37 *
38 * @author Mark Hall (mhall@cs.waikato.ac.nz)
39 * @version $Revision: 5741 $
40 */
41public class PlotData2D {
42
43  /** The instances */
44  protected Instances m_plotInstances = null;
45
46  /** The name of this plot */
47  protected String m_plotName = "new plot";
48 
49  /**
50   * The name of this plot (possibly in html) suitable for using in a
51   * tool tip text.
52   */
53  protected String m_plotNameHTML = null;
54
55  /** Custom colour for this plot */
56  public boolean m_useCustomColour = false;
57  public Color m_customColour = null;
58
59  /** Display all points (ie. those that map to the same display coords) */
60  public boolean m_displayAllPoints = false;
61 
62  /**
63   *  If the shape size of a point equals this size then always plot
64   * it (i.e. even if it is obscured by other points)
65   */
66  public int m_alwaysDisplayPointsOfThisSize = -1;
67
68  /** Panel coordinate cache for data points */
69  protected double [][] m_pointLookup;
70
71  /** Additional optional information to control the size of points.
72      The default is shape size 2  */
73  protected int [] m_shapeSize;
74
75  /** Additional optional information to control the point shape for this
76      data. Default is to allow automatic assigning of point shape on the
77      basis of plot number */
78  protected int [] m_shapeType;
79
80  /**
81   * Additional optional information to control the drawing of lines
82   * between consecutive points. Setting an entry in the array to true
83   * indicates that the associated point should have a line connecting
84   * it to the previous point.
85   */
86  protected boolean [] m_connectPoints;
87
88  /** These are used to determine bounds */
89
90  /** The x index */
91  private int m_xIndex;
92
93  /** The y index */
94  private int m_yIndex;
95
96  /** The colouring index */
97  private int m_cIndex;
98
99  /** Holds the min and max values of the x, y and colouring attributes
100   for this plot */
101  protected double m_maxX;
102  protected double m_minX;
103  protected double m_maxY;
104  protected double m_minY;
105  protected double m_maxC;
106  protected double m_minC;
107
108  /**
109   * Construct a new PlotData2D using the supplied instances
110   * @param insts the instances to use.
111   */
112  public PlotData2D(Instances insts) {   
113    m_plotInstances = insts;
114    m_xIndex = m_yIndex = m_cIndex = 0;
115    m_pointLookup = new double [m_plotInstances.numInstances()][4];
116    m_shapeSize = new int [m_plotInstances.numInstances()];
117    m_shapeType = new int [m_plotInstances.numInstances()];
118    m_connectPoints = new boolean [m_plotInstances.numInstances()];
119    for (int i = 0; i < m_plotInstances.numInstances(); i++) {
120      m_shapeSize[i] = Plot2D.DEFAULT_SHAPE_SIZE; //default shape size
121      m_shapeType[i] = Plot2D.CONST_AUTOMATIC_SHAPE; // default (automatic shape assignment)
122    }
123    determineBounds();
124  }
125
126  /**
127   * Adds an instance number attribute to the plottable instances,
128   */
129  public void addInstanceNumberAttribute() {
130    String originalRelationName = m_plotInstances.relationName();
131    int originalClassIndex = m_plotInstances.classIndex();
132    try {
133      Add addF = new Add();
134      addF.setAttributeName("Instance_number");
135      addF.setAttributeIndex("first");
136      addF.setInputFormat(m_plotInstances);
137      m_plotInstances = Filter.useFilter(m_plotInstances, addF);
138      m_plotInstances.setClassIndex(originalClassIndex + 1);
139      for (int i = 0; i < m_plotInstances.numInstances(); i++) {
140        m_plotInstances.instance(i).setValue(0,(double)i);
141      }
142      m_plotInstances.setRelationName(originalRelationName);
143    } catch (Exception ex) {
144      ex.printStackTrace();
145    }
146  }
147
148  /**
149   * Returns the instances for this plot
150   * @return the instances for this plot
151   */
152  public Instances getPlotInstances() {
153    return new Instances(m_plotInstances);
154  }
155
156  /**
157   * Set the name of this plot
158   * @param name the name for this plot
159   */
160  public void setPlotName(String name) {
161    m_plotName = name;
162  }
163
164  /**
165   * Get the name of this plot
166   * @return the name of this plot
167   */
168  public String getPlotName() {
169    return m_plotName;
170  }
171 
172  /**
173   * Set the plot name for use in a tool tip text.
174   *
175   * @param name the name of the plot for potential use in a tool
176   * tip text (may use html).
177   */
178  public void setPlotNameHTML(String name) {
179    m_plotNameHTML = name;
180  }
181 
182  /**
183   * Get the name of the plot for use in a tool tip text.
184   * Defaults to the standard plot name if it hasn't been set.
185   *
186   * @return the name of this plot (possibly in html) for use
187   * in a tool tip text.
188   */
189  public String getPlotNameHTML() {
190    if (m_plotNameHTML == null) {
191      return m_plotName;
192    }
193   
194    return m_plotNameHTML;
195  }
196
197  /**
198   * Set the shape type for the plot data
199   * @param st an array of integers corresponding to shape types (see
200   * constants defined in Plot2D)
201   */
202  public void setShapeType(int [] st) throws Exception {
203    m_shapeType = st;
204    if (m_shapeType.length != m_plotInstances.numInstances()) {
205      throw new Exception("PlotData2D: Shape type array must have the same "
206                          +"number of entries as number of data points!");
207    }
208    for (int i = 0; i < st.length; i++) {
209      if (m_shapeType[i] == Plot2D.ERROR_SHAPE) {
210        m_shapeSize[i] = 3;
211      }
212    }
213  }
214
215  /**
216   * Set the shape type for the plot data
217   * @param st a FastVector of integers corresponding to shape types (see
218   * constants defined in Plot2D)
219   */
220  public void setShapeType(FastVector st) throws Exception {
221    if (st.size() != m_plotInstances.numInstances()) {
222      throw new Exception("PlotData2D: Shape type vector must have the same "
223                          +"number of entries as number of data points!");
224    }
225    m_shapeType = new int [st.size()];
226    for (int i = 0; i < st.size(); i++) {
227      m_shapeType[i] = ((Integer)st.elementAt(i)).intValue();
228      if (m_shapeType[i] == Plot2D.ERROR_SHAPE) {
229        m_shapeSize[i] = 3;
230      }
231    }
232  }
233
234  /**
235   * Set the shape sizes for the plot data
236   * @param ss an array of integers specifying the size of data points
237   */
238  public void setShapeSize(int [] ss) throws Exception {
239    m_shapeSize = ss;
240    if (m_shapeType.length != m_plotInstances.numInstances()) {
241      throw new Exception("PlotData2D: Shape size array must have the same "
242                          +"number of entries as number of data points!");
243    }
244  }
245 
246  /**
247   * Set the shape sizes for the plot data
248   * @param ss a FastVector of integers specifying the size of data points
249   */
250  public void setShapeSize(FastVector ss) throws Exception {
251    if (ss.size() != m_plotInstances.numInstances()) {
252      throw new Exception("PlotData2D: Shape size vector must have the same "
253                          +"number of entries as number of data points!");
254    }
255    //System.err.println("Setting connect points ");
256    m_shapeSize = new int [ss.size()];
257    for (int i = 0; i < ss.size(); i++) {
258      m_shapeSize[i] = ((Integer)ss.elementAt(i)).intValue();
259    }
260  }
261
262  /**
263   * Set whether consecutive points should be connected by lines
264   * @param cp an array of boolean specifying which points should be
265   * connected to their preceeding neighbour.
266   */
267  public void setConnectPoints(boolean [] cp) throws Exception {
268    m_connectPoints = cp;
269    if (m_connectPoints.length != m_plotInstances.numInstances()) {
270      throw new Exception("PlotData2D: connect points array must have the "
271                          +"same number of entries as number of data points!");
272    }
273    m_connectPoints[0] = false;
274  }
275 
276  /**
277   * Set whether consecutive points should be connected by lines
278   * @param cp a FastVector of boolean specifying which points should be
279   * connected to their preceeding neighbour.
280   */
281  public void setConnectPoints(FastVector cp) throws Exception {
282    if (cp.size() != m_plotInstances.numInstances()) {
283      throw new Exception("PlotData2D: connect points array must have the "
284                          +"same number of entries as number of data points!");
285    }
286    //System.err.println("Setting connect points ");
287    m_shapeSize = new int [cp.size()];
288    for (int i = 0; i < cp.size(); i++) {
289      m_connectPoints[i] = ((Boolean)cp.elementAt(i)).booleanValue();
290    }
291    m_connectPoints[0] = false;
292  }
293
294  /**
295   * Set a custom colour to use for this plot. This overides any
296   * data index to use for colouring. If null, then will revert back
297   * to the default (no custom colouring).
298   * @param c a custom colour to use for this plot or null (default---no
299   * colouring).
300   */
301  public void setCustomColour(Color c) {
302    m_customColour = c;
303    if (c != null) {
304      m_useCustomColour = true;
305    } else {
306      m_useCustomColour = false;
307    }
308  }
309
310  /**
311   * Set the x index of the data.
312   * @param x the x index
313   */
314  public void setXindex(int x) {
315    m_xIndex = x;
316    determineBounds();
317  }
318
319  /**
320   * Set the y index of the data
321   * @param y the y index
322   */
323  public void setYindex(int y) {
324    m_yIndex = y;
325    determineBounds();
326  }
327
328  /**
329   * Set the colouring index of the data
330   * @param c the colouring index
331   */
332  public void setCindex(int c) {
333    m_cIndex = c;
334    determineBounds();
335  }
336
337  /**
338   * Get the currently set x index of the data
339   * @return the current x index
340   */
341  public int getXindex() {
342    return m_xIndex;
343  }
344
345  /**
346   * Get the currently set y index of the data
347   * @return the current y index
348   */
349  public int getYindex() {
350    return m_yIndex;
351  }
352
353  /**
354   * Get the currently set colouring index of the data
355   * @return the current colouring index
356   */
357  public int getCindex() {
358    return m_cIndex;
359  }
360
361  /**
362   * Determine bounds for the current x,y and colouring indexes
363   */
364  private void determineBounds() {
365     double value,min,max;
366   
367    if (m_plotInstances != null && 
368        m_plotInstances.numAttributes() > 0 &&
369        m_plotInstances.numInstances() > 0) {
370      // x bounds
371      min=Double.POSITIVE_INFINITY;
372      max=Double.NEGATIVE_INFINITY;
373      if (m_plotInstances.attribute(m_xIndex).isNominal()) {
374        m_minX = 0;
375        m_maxX = m_plotInstances.attribute(m_xIndex).numValues()-1;
376      } else {
377        for (int i=0;i<m_plotInstances.numInstances();i++) {
378          if (!m_plotInstances.instance(i).isMissing(m_xIndex)) {
379            value = m_plotInstances.instance(i).value(m_xIndex);
380            if (value < min) {
381              min = value;
382            }
383            if (value > max) {
384              max = value;
385            }
386          }
387        }
388       
389        // handle case where all values are missing
390        if (min == Double.POSITIVE_INFINITY) min = max = 0.0;
391       
392        m_minX = min; m_maxX = max;
393        if (min == max) {
394          m_maxX += 0.05;
395          m_minX -= 0.05;
396        }
397      }
398
399      // y bounds
400      min=Double.POSITIVE_INFINITY;
401      max=Double.NEGATIVE_INFINITY;
402      if (m_plotInstances.attribute(m_yIndex).isNominal()) {
403        m_minY = 0;
404        m_maxY = m_plotInstances.attribute(m_yIndex).numValues()-1;
405      } else {
406        for (int i=0;i<m_plotInstances.numInstances();i++) {
407          if (!m_plotInstances.instance(i).isMissing(m_yIndex)) {
408            value = m_plotInstances.instance(i).value(m_yIndex);
409            if (value < min) {
410              min = value;
411            }
412            if (value > max) {
413              max = value;
414            }
415          }
416        }
417       
418        // handle case where all values are missing
419        if (min == Double.POSITIVE_INFINITY) min = max = 0.0;
420
421        m_minY = min; m_maxY = max;
422        if (min == max) {
423          m_maxY += 0.05;
424          m_minY -= 0.05;
425        }
426      }
427     
428      // colour bounds
429      min=Double.POSITIVE_INFINITY;
430      max=Double.NEGATIVE_INFINITY;
431
432      for (int i=0;i<m_plotInstances.numInstances();i++) {
433        if (!m_plotInstances.instance(i).isMissing(m_cIndex)) {
434          value = m_plotInstances.instance(i).value(m_cIndex);
435          if (value < min) {
436            min = value;
437          }
438          if (value > max) {
439            max = value;
440          }
441        }
442      }
443
444      // handle case where all values are missing
445      if (min == Double.POSITIVE_INFINITY) min = max = 0.0;
446
447      m_minC = min; m_maxC = max;
448    }
449  }
450}
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