/*
* 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.
*/
/*
* AddNoise.java
* Copyright (C) 2000 Gabi Schmidberger.
*/
package weka.filters.unsupervised.attribute;
import weka.filters.*;
import weka.core.Instance;
import weka.core.Instances;
import weka.core.Attribute;
import weka.core.OptionHandler;
import weka.core.Option;
import weka.core.Utils;
import java.util.Random;
import java.util.Enumeration;
import java.util.Vector;
/**
* Introduces noise data a random subsample of the dataset
* by changing a given attribute
* (attribute must be nominal)
* Valid options are:<p>
*
* -C col <br>
* Index of the attribute to be changed. (default last)<p>
*
* -M <br>
* flag: missing values are treated as an extra value <p>
*
* -P num <br>
* Percentage of noise to be introduced to the data (default 10).<p>
*
* -S seed <br>
* Random number seed for choosing the data to be changed <p>
* and for choosing the value it is changed to (default 1). <p>
*
* @author Gabi Schmidberger (gabi@cs.waikato.ac.nz)
* @version $Revision: 1.1.1.1 $
**/
public class AddNoise extends Filter implements UnsupervisedFilter,
OptionHandler {
/** The index of the attribute to be changed. */
private int m_AttIndexSet = -1;
/** Flag if missing values are taken as value. */
private boolean m_UseMissing = false;
/** The subsample size, percent of original set, default 10% */
private int m_Percent = 10;
/** The random number generator seed */
private int m_RandomSeed = 1;
/** The attribute's index */
private int m_AttIndex;
/** True if the first batch has been done */
private boolean m_FirstBatchDone = false;
/**
* Returns a string describing this filter
*
* @return a description of the filter suitable for
* displaying in the explorer/experimenter gui
*/
public String globalInfo() {
return "An instance filter that changes a percentage of a given"
+ " attributes values. The attribute must be nominal."
+ " Missing value can be treated as value itself.";
}
/**
* Returns an enumeration describing the available options
*
* @return an enumeration of all the available options
*/
public Enumeration listOptions() {
Vector newVector = new Vector(1);
newVector.addElement(new Option(
"\tIndex of the attribute to be changed \n"
+"\t(default last attribute)",
"C", 1, "-C <col>"));
newVector.addElement(new Option(
"\tTreat missing values as an extra value \n",
"M", 1, "-M"));
newVector.addElement(new Option(
"\tSpecify the percentage of noise introduced \n"
+"\tto the data (default 10)",
"P", 1, "-P <num>"));
newVector.addElement(new Option(
"\tSpecify the random number seed (default 1)",
"S", 1, "-S <num>"));
return newVector.elements();
}
/**
* Parses a list of options for this object. Valid options are:<p>
*
* -C col <br>
* Index of the attribute to be changed. (default last)<p>
*
* -M <br>
* missing values are treated as an extra value <p>
*
* -P num <br>
* Specify the percentage of noise introduced to the data (default 10).<p>
*
* -S num <br>
* Specify the random number seed (default 1).<p>
*
* @param options the list of options as an array of strings
* @exception Exception if an option is not supported
*/
public void setOptions(String[] options) throws Exception {
String indexString = Utils.getOption('C', options);
if (indexString.length() != 0) {
setAttIndexSet((int)Double.valueOf(indexString).doubleValue());
} else {
setAttIndexSet(-1);
}
if (Utils.getFlag('M', options)) {
setUseMissing(true);
}
String percentString = Utils.getOption('P', options);
if (percentString.length() != 0) {
setPercent((int) Double.valueOf(percentString).doubleValue());
} else {
setPercent(10);
}
String seedString = Utils.getOption('S', options);
if (seedString.length() != 0) {
setRandomSeed(Integer.parseInt(seedString));
} else {
setRandomSeed(1);
}
}
/**
* Gets the current settings of the filter.
*
* @return an array of strings suitable for passing to setOptions
*/
public String [] getOptions() {
String [] options = new String [8];
int current = 0;
options[current++] = "-C"; options[current++] = "" + getAttIndexSet();
if (getUseMissing()) {
options[current++] = "-M";
}
options[current++] = "-P"; options[current++] = "" + getPercent();
options[current++] = "-S"; options[current++] = "" + getRandomSeed();
while (current < options.length) {
options[current++] = "";
}
return options;
}
/**
* Returns the tip text for this property
*
* @return tip text for this property suitable for
* displaying in the explorer/experimenter gui
*/
public String useMissingTipText() {
return "Flag to set if missing values are used.";
}
/**
* Gets the flag if missing values are treated as extra values.
*
* @return the flag missing values.
*/
public boolean getUseMissing() {
return m_UseMissing;
}
/**
* Sets the flag if missing values are treated as extra values.
*
* @param newUseMissing the new flag value.
*/
public void setUseMissing(boolean newUseMissing) {
m_UseMissing = newUseMissing;
}
/**
* Returns the tip text for this property
*
* @return tip text for this property suitable for
* displaying in the explorer/experimenter gui
*/
public String randomSeedTipText() {
return "Random number seed.";
}
/**
* Gets the random number seed.
*
* @return the random number seed.
*/
public int getRandomSeed() {
return m_RandomSeed;
}
/**
* Sets the random number seed.
*
* @param newSeed the new random number seed.
*/
public void setRandomSeed(int newSeed) {
m_RandomSeed = newSeed;
}
/**
* Returns the tip text for this property
*
* @return tip text for this property suitable for
* displaying in the explorer/experimenter gui
*/
public String percentTipText() {
return "Percentage of introduced noise to data.";
}
/**
* Gets the size of noise data as a percentage of the original set.
*
* @return the noise data size
*/
public int getPercent() {
return m_Percent;
}
/**
* Sets the size of noise data, as a percentage of the original set.
*
* @param newPercent the subsample set size, between 0 and 100.
*/
public void setPercent(int newPercent) {
m_Percent = newPercent;
}
/**
* Returns the tip text for this property
*
* @return tip text for this property suitable for
* displaying in the explorer/experimenter gui
*/
public String attIndexSetTipText() {
return "Index of the attribute that is to changed.";
}
/**
* Gets the Index of the Attribute that is to be changed.
*
* @return the attribute index that is to be changed
*/
public int getAttIndexSet() {
return m_AttIndexSet;
}
/**
* Sets the Index of the Attribute to be changed.
*
* @param newAttIndexSet index of the attribute to be changed.
*/
public void setAttIndexSet(int newAttIndexSet) {
m_AttIndexSet = newAttIndexSet;
}
/**
* Sets the format of the input instances.
*
* @param instanceInfo an Instances object containing the input
* instance structure (any instances contained in the object are
* ignored - only the structure is required).
* @return true if the outputFormat may be collected immediately
* @exception Exception if the input format can't be set
* successfully
*/
public boolean setInputFormat(Instances instanceInfo)
throws Exception {
super.setInputFormat(instanceInfo);
// set input format
//m_InputFormat = new Instances(instanceInfo, 0);
// set index of attribute to be changed
if (m_AttIndexSet > getInputFormat().numAttributes() - 1) {
throw new Exception("Adding noise is not possible:"
+ "No attribute with index"
+ m_AttIndexSet + ".");
}
m_AttIndex = m_AttIndexSet;
if (m_AttIndex < 0)
m_AttIndex = getInputFormat().numAttributes() - 1;
// test if nominal
if (!getInputFormat().attribute(m_AttIndex).isNominal()) {
throw new Exception("Adding noise is not possible:"
+ "Chosen attribute is numeric.");
}
// test if two values are given
if ((getInputFormat().attribute(m_AttIndex).numValues() < 2)
&& (!m_UseMissing)) {
throw new Exception("Adding noise is not possible:"
+ "Chosen attribute has less than two values.");
}
setOutputFormat(getInputFormat());
m_NewBatch = true;
m_FirstBatchDone = false;
return false;
}
/**
* Input an instance for filtering.
*
* @param instance the input instance
* @return true if the filtered instance may now be
* collected with output().
* @exception Exception if the input format was not set
*/
public boolean input(Instance instance) throws Exception {
// check if input format is defined
if (getInputFormat() == null) {
throw new Exception("No input instance format defined");
}
if (m_NewBatch) {
resetQueue();
m_NewBatch = false;
}
// make new instance
Instance newInstance = (Instance)instance.copy();
getInputFormat().add(instance);
return false;
}
/**
* Signify that this batch of input to the filter is finished.
* If the filter requires all instances prior to filtering,
* output() may now be called to retrieve the filtered instances.
*
* @return true if there are instances pending output
* @exception Exception if no input structure has been defined
*/
public boolean batchFinished() throws Exception {
Instance current;
if (getInputFormat() == null) {
throw new Exception("No input instance format defined");
}
// Do the subsample, and clear the input instances.
addNoise (getInputFormat(), m_RandomSeed, m_Percent, m_AttIndex,
m_UseMissing);
for(int i=0; i<getInputFormat().numInstances(); i++) {
push (new Instance(getInputFormat().instance(i)));
}
m_NewBatch = true;
m_FirstBatchDone = true;
return (numPendingOutput() != 0);
}
/**
* add noise to the dataset
*
* a given percentage of the instances are changed in the way, that
* a set of instances are randomly selected using seed. The attribute
* given by its index is changed from its current value to one of the
* other possibly ones, also randomly. This is done with leaving the
* apportion the same.
* if m_UseMissing is true, missing value is used as a value of its own
* @param instances is the dataset
* @param seed used for random function
* @param percent percentage of instances that are changed
* @param attIndex index of the attribute changed
* @param useMissingValue if true missing values are treated as extra value
*/
public void addNoise (Instances instances,
int seed,
int percent,
int attIndex,
boolean useMissing) {
int indexList [];
int partition_count [];
int partition_max [];
double splitPercent = (double) percent; // percentage used for splits
// fill array with the indexes
indexList = new int [instances.numInstances()];
for (int i=0; i<instances.numInstances(); i++) {
indexList[i] = i;
}
// randomize list of indexes
Random random = new Random(seed);
for (int i=instances.numInstances()-1; i>=0; i--) {
int hValue = indexList[i];
int hIndex = (int)(random.nextDouble()*(double) i);
indexList[i] = indexList[hIndex];
indexList[hIndex] = hValue;
}
// initialize arrays that are used to count instances
// of each value and to keep the amount of instances of that value
// that has to be changed
// this is done for the missing values in the two variables
// missing_count and missing_max
int numValues = instances.attribute(attIndex).numValues();
partition_count = new int[numValues];
partition_max = new int[numValues];
int missing_count = 0;;
int missing_max = 0;;
for (int i = 0; i < numValues; i++) {
partition_count[i] = 0;
partition_max[i] = 0;
}
// go through the dataset and count all occurrences of values
// and all missing values using temporarily .._max arrays and
// variable missing_max
for (Enumeration e = instances.enumerateInstances();
e.hasMoreElements();) {
Instance instance = (Instance) e.nextElement();
if (instance.isMissing(attIndex)) {
missing_max++;
}
else {
int j = (int) instance.value(attIndex);
partition_max[(int) instance.value(attIndex)]++;
}
}
// use given percentage to calculate
// how many have to be changed per split and
// how many of the missing values
if (!useMissing) {
missing_max = missing_count;
} else {
missing_max = (int) (((double)missing_max/100) * splitPercent + 0.5);
}
int sum_max = missing_max;
for (int i=0; i<numValues; i++) {
partition_max[i]=(int) (((double)partition_max[i]/100) * splitPercent
+ 0.5);
sum_max = sum_max + partition_max[i];
}
// initialize sum_count to zero, use this variable to see if
// everything is done already
int sum_count = 0;
// add noise
// using the randomized index-array
//
Random randomValue = new Random (seed);
int numOfValues = instances.attribute(attIndex).numValues();
for(int i=0; i<instances.numInstances(); i++) {
if (sum_count >= sum_max) { break; } // finished
Instance currInstance = instances.instance(indexList[i]);
// if value is missing then...
if (currInstance.isMissing(attIndex)) {
if (missing_count < missing_max) {
changeValueRandomly (randomValue,
numOfValues,
attIndex,
currInstance,
useMissing);
missing_count++;
sum_count++;
}
} else {
int vIndex = (int) currInstance.value(attIndex);
if (partition_count[vIndex] < partition_max[vIndex]) {
changeValueRandomly (randomValue,
numOfValues,
attIndex,
currInstance,
useMissing);
partition_count[vIndex]++;
sum_count++;
}
}
}
}
/**
* method to set a new value
*
* @param r random function
* @param numOfValues
* @param instance
* @param useMissing
*/
private void changeValueRandomly(Random r, int numOfValues,
int indexOfAtt,
Instance instance,
boolean useMissing) {
int currValue;
// get current value
// if value is missing set current value to number of values
// whiche is the highest possible value plus one
if (instance.isMissing(indexOfAtt)) {
currValue = numOfValues;
} else {
currValue = (int) instance.value(indexOfAtt);
}
// with only two possible values it is easier
if ((numOfValues == 2) && (!instance.isMissing(indexOfAtt))) {
instance.setValue(indexOfAtt, (double) ((currValue+1)% 2));
} else {
// get randomly a new value not equal to the current value
// if missing values are used as values they must be treated
// in a special way
while (true) {
int newValue;
if (useMissing) {
newValue = (int) (r.nextDouble() * (double) (numOfValues + 1));
} else {
newValue = (int) (r.nextDouble() * (double) numOfValues);
}
// have we found a new value?
if (newValue != currValue) {
// the value 1 above the highest possible value (=numOfValues)
// is used as missing value
if (newValue == numOfValues) { instance.setMissing(indexOfAtt); }
else { instance.setValue(indexOfAtt, (double) newValue); }
break;
}
}
}
}
/**
* Main method for testing this class.
*
* @param argv should contain arguments to the filter:
* use -h for help
*/
public static void main(String [] argv) {
try {
if (Utils.getFlag('b', argv)) {
Filter.batchFilterFile(new AddNoise(), argv);
} else {
Filter.filterFile(new AddNoise(), argv);
}
} catch (Exception ex) {
System.out.println(ex.getMessage());
}
}
}