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weka.associations.CheckAssociator Maven / Gradle / Ivy
The Waikato Environment for Knowledge Analysis (WEKA), a machine
learning workbench. This version represents the developer version, the
"bleeding edge" of development, you could say. New functionality gets added
to this version.
/*
* 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 3 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, see
*
* Typical usage:
*
* java weka.associations.CheckAssociator -W associator_name
* -- associator_options
*
*
* CheckAssociator reports on the following:
*
* Associator abilities
*
* Possible command line options to the associators
* Whether the associators can predict nominal, numeric, string, date or
* relational class attributes.
* Whether the associators can handle numeric predictor attributes
* Whether the associators can handle nominal predictor attributes
* Whether the associators can handle string predictor attributes
* Whether the associators can handle date predictor attributes
* Whether the associators can handle relational predictor attributes
* Whether the associators can handle multi-instance data
* Whether the associators can handle missing predictor values
* Whether the associators can handle missing class values
* Whether a nominal associators only handles 2 class problems
* Whether the associators can handle instance weights
*
*
* Correct functioning
*
* Correct initialisation during buildAssociations (i.e. no result changes
* when buildAssociations called repeatedly)
* Whether the associators alters the data pased to it (number of instances,
* instance order, instance weights, etc)
*
*
* Degenerate cases
*
* building associators with zero training instances
* all but one predictor attribute values missing
* all predictor attribute values missing
* all but one class values missing
* all class values missing
*
*
*
* Running CheckAssociator with the debug option set will output the training
* dataset for any failed tests.
*
*
* The weka.associations.AbstractAssociatorTest uses this class to
* test all the associators. Any changes here, have to be checked in that
* abstract test class, too.
*
*
* Valid options are:
*
*
*
* -D
* Turn on debugging output.
*
*
*
* -S
* Silent mode - prints nothing to stdout.
*
*
*
* -N <num>
* The number of instances in the datasets (default 20).
*
*
*
* -nominal <num>
* The number of nominal attributes (default 2).
*
*
*
* -nominal-values <num>
* The number of values for nominal attributes (default 1).
*
*
*
* -numeric <num>
* The number of numeric attributes (default 1).
*
*
*
* -string <num>
* The number of string attributes (default 1).
*
*
*
* -date <num>
* The number of date attributes (default 1).
*
*
*
* -relational <num>
* The number of relational attributes (default 1).
*
*
*
* -num-instances-relational <num>
* The number of instances in relational/bag attributes (default 10).
*
*
*
* -words <comma-separated-list>
* The words to use in string attributes.
*
*
*
* -word-separators <chars>
* The word separators to use in string attributes.
*
*
*
* -W
* Full name of the associator analysed.
* eg: weka.associations.Apriori
* (default weka.associations.Apriori)
*
*
*
* Options specific to associator weka.associations.Apriori:
*
*
*
* -N <required number of rules output>
* The required number of rules. (default = 10)
*
*
*
* -T <0=confidence | 1=lift | 2=leverage | 3=Conviction>
* The metric type by which to rank rules. (default = confidence)
*
*
*
* -C <minimum metric score of a rule>
* The minimum confidence of a rule. (default = 0.9)
*
*
*
* -D <delta for minimum support>
* The delta by which the minimum support is decreased in
* each iteration. (default = 0.05)
*
*
*
* -U <upper bound for minimum support>
* Upper bound for minimum support. (default = 1.0)
*
*
*
* -M <lower bound for minimum support>
* The lower bound for the minimum support. (default = 0.1)
*
*
*
* -S <significance level>
* If used, rules are tested for significance at
* the given level. Slower. (default = no significance testing)
*
*
*
* -I
* If set the itemsets found are also output. (default = no)
*
*
*
* -R
* Remove columns that contain all missing values (default = no)
*
*
*
* -V
* Report progress iteratively. (default = no)
*
*
*
* -A
* If set class association rules are mined. (default = no)
*
*
*
* -c <the class index>
* The class index. (default = last)
*
*
*
*
* Options after -- are passed to the designated associator.
*
*
* @author Len Trigg ([email protected] )
* @author FracPete (fracpete at waikato dot ac dot nz)
* @version $Revision: 11247 $
* @see TestInstances
*/
public class CheckAssociator extends CheckScheme implements RevisionHandler {
/*
* Note about test methods: - methods return array of booleans - first index:
* success or not - second index: acceptable or not (e.g., Exception is OK)
*
* FracPete (fracpete at waikato dot ac dot nz)
*/
/** a "dummy" class type */
public final static int NO_CLASS = -1;
/*** The associator to be examined */
protected Associator m_Associator = new weka.associations.Apriori();
/**
* Returns an enumeration describing the available options.
*
* @return an enumeration of all the available options.
*/
@Override
public Enumeration listOptions() {
Vector result = new Vector ();
result.addAll(Collections.list(super.listOptions()));
result.add(new Option("\tFull name of the associator analysed.\n"
+ "\teg: weka.associations.Apriori\n"
+ "\t(default weka.associations.Apriori)", "W", 1, "-W"));
if ((m_Associator != null) && (m_Associator instanceof OptionHandler)) {
result.add(new Option("", "", 0, "\nOptions specific to associator "
+ m_Associator.getClass().getName() + ":"));
result.addAll(Collections.list(((OptionHandler) m_Associator)
.listOptions()));
}
return result.elements();
}
/**
* Parses a given list of options.
*
* Valid options are:
*
*
*
* -D
* Turn on debugging output.
*
*
*
* -S
* Silent mode - prints nothing to stdout.
*
*
*
* -N <num>
* The number of instances in the datasets (default 20).
*
*
*
* -nominal <num>
* The number of nominal attributes (default 2).
*
*
*
* -nominal-values <num>
* The number of values for nominal attributes (default 1).
*
*
*
* -numeric <num>
* The number of numeric attributes (default 1).
*
*
*
* -string <num>
* The number of string attributes (default 1).
*
*
*
* -date <num>
* The number of date attributes (default 1).
*
*
*
* -relational <num>
* The number of relational attributes (default 1).
*
*
*
* -num-instances-relational <num>
* The number of instances in relational/bag attributes (default 10).
*
*
*
* -words <comma-separated-list>
* The words to use in string attributes.
*
*
*
* -word-separators <chars>
* The word separators to use in string attributes.
*
*
*
* -W
* Full name of the associator analysed.
* eg: weka.associations.Apriori
* (default weka.associations.Apriori)
*
*
*
* Options specific to associator weka.associations.Apriori:
*
*
*
* -N <required number of rules output>
* The required number of rules. (default = 10)
*
*
*
* -T <0=confidence | 1=lift | 2=leverage | 3=Conviction>
* The metric type by which to rank rules. (default = confidence)
*
*
*
* -C <minimum metric score of a rule>
* The minimum confidence of a rule. (default = 0.9)
*
*
*
* -D <delta for minimum support>
* The delta by which the minimum support is decreased in
* each iteration. (default = 0.05)
*
*
*
* -U <upper bound for minimum support>
* Upper bound for minimum support. (default = 1.0)
*
*
*
* -M <lower bound for minimum support>
* The lower bound for the minimum support. (default = 0.1)
*
*
*
* -S <significance level>
* If used, rules are tested for significance at
* the given level. Slower. (default = no significance testing)
*
*
*
* -I
* If set the itemsets found are also output. (default = no)
*
*
*
* -R
* Remove columns that contain all missing values (default = no)
*
*
*
* -V
* Report progress iteratively. (default = no)
*
*
*
* -A
* If set class association rules are mined. (default = no)
*
*
*
* -c <the class index>
* The class index. (default = last)
*
*
*
*
* @param options the list of options as an array of strings
* @throws Exception if an option is not supported
*/
@Override
public void setOptions(String[] options) throws Exception {
String tmpStr;
super.setOptions(options);
tmpStr = Utils.getOption('W', options);
if (tmpStr.length() == 0) {
tmpStr = weka.associations.Apriori.class.getName();
}
setAssociator((Associator) forName("weka.associations", Associator.class,
tmpStr, Utils.partitionOptions(options)));
}
/**
* Gets the current settings of the CheckAssociator.
*
* @return an array of strings suitable for passing to setOptions
*/
@Override
public String[] getOptions() {
Vector result = new Vector();
Collections.addAll(result, super.getOptions());
if (getAssociator() != null) {
result.add("-W");
result.add(getAssociator().getClass().getName());
}
if ((m_Associator != null) && (m_Associator instanceof OptionHandler)) {
String[] options = ((OptionHandler) m_Associator).getOptions();
if (options.length > 0) {
result.add("--");
Collections.addAll(result, options);
}
}
return result.toArray(new String[result.size()]);
}
/**
* Begin the tests, reporting results to System.out
*/
@Override
public void doTests() {
if (getAssociator() == null) {
println("\n=== No associator set ===");
return;
}
println("\n=== Check on Associator: "
+ getAssociator().getClass().getName() + " ===\n");
// Start tests
m_ClasspathProblems = false;
println("--> Checking for interfaces");
canTakeOptions();
boolean weightedInstancesHandler = weightedInstancesHandler()[0];
boolean multiInstanceHandler = multiInstanceHandler()[0];
println("--> Associator tests");
declaresSerialVersionUID();
println("--> no class attribute");
testsWithoutClass(weightedInstancesHandler, multiInstanceHandler);
println("--> with class attribute");
testsPerClassType(Attribute.NOMINAL, weightedInstancesHandler,
multiInstanceHandler);
testsPerClassType(Attribute.NUMERIC, weightedInstancesHandler,
multiInstanceHandler);
testsPerClassType(Attribute.DATE, weightedInstancesHandler,
multiInstanceHandler);
testsPerClassType(Attribute.STRING, weightedInstancesHandler,
multiInstanceHandler);
testsPerClassType(Attribute.RELATIONAL, weightedInstancesHandler,
multiInstanceHandler);
}
/**
* Set the associator to test.
*
* @param newAssociator the Associator to use.
*/
public void setAssociator(Associator newAssociator) {
m_Associator = newAssociator;
}
/**
* Get the associator being tested
*
* @return the associator being tested
*/
public Associator getAssociator() {
return m_Associator;
}
/**
* Run a battery of tests for a given class attribute type
*
* @param classType true if the class attribute should be numeric
* @param weighted true if the associator says it handles weights
* @param multiInstance true if the associator is a multi-instance associator
*/
protected void testsPerClassType(int classType, boolean weighted,
boolean multiInstance) {
boolean PNom = canPredict(true, false, false, false, false, multiInstance,
classType)[0];
boolean PNum = canPredict(false, true, false, false, false, multiInstance,
classType)[0];
boolean PStr = canPredict(false, false, true, false, false, multiInstance,
classType)[0];
boolean PDat = canPredict(false, false, false, true, false, multiInstance,
classType)[0];
boolean PRel;
if (!multiInstance) {
PRel = canPredict(false, false, false, false, true, multiInstance,
classType)[0];
} else {
PRel = false;
}
if (PNom || PNum || PStr || PDat || PRel) {
if (weighted) {
instanceWeights(PNom, PNum, PStr, PDat, PRel, multiInstance, classType);
}
if (classType == Attribute.NOMINAL) {
canHandleNClasses(PNom, PNum, PStr, PDat, PRel, multiInstance, 4);
}
if (!multiInstance) {
canHandleClassAsNthAttribute(PNom, PNum, PStr, PDat, PRel,
multiInstance, classType, 0);
canHandleClassAsNthAttribute(PNom, PNum, PStr, PDat, PRel,
multiInstance, classType, 1);
}
canHandleZeroTraining(PNom, PNum, PStr, PDat, PRel, multiInstance,
classType);
boolean handleMissingPredictors = canHandleMissing(PNom, PNum, PStr,
PDat, PRel, multiInstance, classType, true, false, 20)[0];
if (handleMissingPredictors) {
canHandleMissing(PNom, PNum, PStr, PDat, PRel, multiInstance,
classType, true, false, 100);
}
boolean handleMissingClass = canHandleMissing(PNom, PNum, PStr, PDat,
PRel, multiInstance, classType, false, true, 20)[0];
if (handleMissingClass) {
canHandleMissing(PNom, PNum, PStr, PDat, PRel, multiInstance,
classType, false, true, 100);
}
correctBuildInitialisation(PNom, PNum, PStr, PDat, PRel, multiInstance,
classType);
datasetIntegrity(PNom, PNum, PStr, PDat, PRel, multiInstance, classType,
handleMissingPredictors, handleMissingClass);
}
}
/**
* Run a battery of tests without a class
*
* @param weighted true if the associator says it handles weights
* @param multiInstance true if the associator is a multi-instance associator
*/
protected void testsWithoutClass(boolean weighted, boolean multiInstance) {
boolean PNom = canPredict(true, false, false, false, false, multiInstance,
NO_CLASS)[0];
boolean PNum = canPredict(false, true, false, false, false, multiInstance,
NO_CLASS)[0];
boolean PStr = canPredict(false, false, true, false, false, multiInstance,
NO_CLASS)[0];
boolean PDat = canPredict(false, false, false, true, false, multiInstance,
NO_CLASS)[0];
boolean PRel;
if (!multiInstance) {
PRel = canPredict(false, false, false, false, true, multiInstance,
NO_CLASS)[0];
} else {
PRel = false;
}
if (PNom || PNum || PStr || PDat || PRel) {
if (weighted) {
instanceWeights(PNom, PNum, PStr, PDat, PRel, multiInstance, NO_CLASS);
}
canHandleZeroTraining(PNom, PNum, PStr, PDat, PRel, multiInstance,
NO_CLASS);
boolean handleMissingPredictors = canHandleMissing(PNom, PNum, PStr,
PDat, PRel, multiInstance, NO_CLASS, true, false, 20)[0];
if (handleMissingPredictors) {
canHandleMissing(PNom, PNum, PStr, PDat, PRel, multiInstance, NO_CLASS,
true, false, 100);
}
correctBuildInitialisation(PNom, PNum, PStr, PDat, PRel, multiInstance,
NO_CLASS);
datasetIntegrity(PNom, PNum, PStr, PDat, PRel, multiInstance, NO_CLASS,
handleMissingPredictors, false);
}
}
/**
* Checks whether the scheme can take command line options.
*
* @return index 0 is true if the associator can take options
*/
protected boolean[] canTakeOptions() {
boolean[] result = new boolean[2];
print("options...");
if (m_Associator instanceof OptionHandler) {
println("yes");
if (m_Debug) {
println("\n=== Full report ===");
Enumeration enu = ((OptionHandler) m_Associator).listOptions();
while (enu.hasMoreElements()) {
Option option = enu.nextElement();
print(option.synopsis() + "\n" + option.description() + "\n");
}
println("\n");
}
result[0] = true;
} else {
println("no");
result[0] = false;
}
return result;
}
/**
* Checks whether the scheme says it can handle instance weights.
*
* @return true if the associator handles instance weights
*/
protected boolean[] weightedInstancesHandler() {
boolean[] result = new boolean[2];
print("weighted instances associator...");
if (m_Associator instanceof WeightedInstancesHandler) {
println("yes");
result[0] = true;
} else {
println("no");
result[0] = false;
}
return result;
}
/**
* Checks whether the scheme handles multi-instance data.
*
* @return true if the associator handles multi-instance data
*/
protected boolean[] multiInstanceHandler() {
boolean[] result = new boolean[2];
print("multi-instance associator...");
if (m_Associator instanceof MultiInstanceCapabilitiesHandler) {
println("yes");
result[0] = true;
} else {
println("no");
result[0] = false;
}
return result;
}
/**
* tests for a serialVersionUID. Fails in case the scheme doesn't declare a
* UID.
*
* @return index 0 is true if the scheme declares a UID
*/
protected boolean[] declaresSerialVersionUID() {
boolean[] result = new boolean[2];
print("serialVersionUID...");
result[0] = !SerializationHelper.needsUID(m_Associator.getClass());
if (result[0]) {
println("yes");
} else {
println("no");
}
return result;
}
/**
* Checks basic prediction of the scheme, for simple non-troublesome datasets.
*
* @param nominalPredictor if true use nominal predictor attributes
* @param numericPredictor if true use numeric predictor attributes
* @param stringPredictor if true use string predictor attributes
* @param datePredictor if true use date predictor attributes
* @param relationalPredictor if true use relational predictor attributes
* @param multiInstance whether multi-instance is needed
* @param classType the class type (NOMINAL, NUMERIC, etc.)
* @return index 0 is true if the test was passed, index 1 is true if test was
* acceptable
*/
protected boolean[] canPredict(boolean nominalPredictor,
boolean numericPredictor, boolean stringPredictor, boolean datePredictor,
boolean relationalPredictor, boolean multiInstance, int classType) {
print("basic predict");
printAttributeSummary(nominalPredictor, numericPredictor, stringPredictor,
datePredictor, relationalPredictor, multiInstance, classType);
print("...");
ArrayList accepts = new ArrayList();
accepts.add("any");
accepts.add("unary");
accepts.add("binary");
accepts.add("nominal");
accepts.add("numeric");
accepts.add("string");
accepts.add("date");
accepts.add("relational");
accepts.add("multi-instance");
accepts.add("not in classpath");
int numTrain = getNumInstances(), numClasses = 2, missingLevel = 0;
boolean predictorMissing = false, classMissing = false;
return runBasicTest(nominalPredictor, numericPredictor, stringPredictor,
datePredictor, relationalPredictor, multiInstance, classType,
missingLevel, predictorMissing, classMissing, numTrain, numClasses,
accepts);
}
/**
* Checks whether nominal schemes can handle more than two classes. If a
* scheme is only designed for two-class problems it should throw an
* appropriate exception for multi-class problems.
*
* @param nominalPredictor if true use nominal predictor attributes
* @param numericPredictor if true use numeric predictor attributes
* @param stringPredictor if true use string predictor attributes
* @param datePredictor if true use date predictor attributes
* @param relationalPredictor if true use relational predictor attributes
* @param multiInstance whether multi-instance is needed
* @param numClasses the number of classes to test
* @return index 0 is true if the test was passed, index 1 is true if test was
* acceptable
*/
protected boolean[] canHandleNClasses(boolean nominalPredictor,
boolean numericPredictor, boolean stringPredictor, boolean datePredictor,
boolean relationalPredictor, boolean multiInstance, int numClasses) {
print("more than two class problems");
printAttributeSummary(nominalPredictor, numericPredictor, stringPredictor,
datePredictor, relationalPredictor, multiInstance, Attribute.NOMINAL);
print("...");
ArrayList accepts = new ArrayList();
accepts.add("number");
accepts.add("class");
int numTrain = getNumInstances(), missingLevel = 0;
boolean predictorMissing = false, classMissing = false;
return runBasicTest(nominalPredictor, numericPredictor, stringPredictor,
datePredictor, relationalPredictor, multiInstance, Attribute.NOMINAL,
missingLevel, predictorMissing, classMissing, numTrain, numClasses,
accepts);
}
/**
* Checks whether the scheme can handle class attributes as Nth attribute.
*
* @param nominalPredictor if true use nominal predictor attributes
* @param numericPredictor if true use numeric predictor attributes
* @param stringPredictor if true use string predictor attributes
* @param datePredictor if true use date predictor attributes
* @param relationalPredictor if true use relational predictor attributes
* @param multiInstance whether multi-instance is needed
* @param classType the class type (NUMERIC, NOMINAL, etc.)
* @param classIndex the index of the class attribute (0-based, -1 means last
* attribute)
* @return index 0 is true if the test was passed, index 1 is true if test was
* acceptable
* @see TestInstances#CLASS_IS_LAST
*/
protected boolean[] canHandleClassAsNthAttribute(boolean nominalPredictor,
boolean numericPredictor, boolean stringPredictor, boolean datePredictor,
boolean relationalPredictor, boolean multiInstance, int classType,
int classIndex) {
if (classIndex == TestInstances.CLASS_IS_LAST) {
print("class attribute as last attribute");
} else {
print("class attribute as " + (classIndex + 1) + ". attribute");
}
printAttributeSummary(nominalPredictor, numericPredictor, stringPredictor,
datePredictor, relationalPredictor, multiInstance, classType);
print("...");
ArrayList accepts = new ArrayList();
int numTrain = getNumInstances(), numClasses = 2, missingLevel = 0;
boolean predictorMissing = false, classMissing = false;
return runBasicTest(nominalPredictor, numericPredictor, stringPredictor,
datePredictor, relationalPredictor, multiInstance, classType, classIndex,
missingLevel, predictorMissing, classMissing, numTrain, numClasses,
accepts);
}
/**
* Checks whether the scheme can handle zero training instances.
*
* @param nominalPredictor if true use nominal predictor attributes
* @param numericPredictor if true use numeric predictor attributes
* @param stringPredictor if true use string predictor attributes
* @param datePredictor if true use date predictor attributes
* @param relationalPredictor if true use relational predictor attributes
* @param multiInstance whether multi-instance is needed
* @param classType the class type (NUMERIC, NOMINAL, etc.)
* @return index 0 is true if the test was passed, index 1 is true if test was
* acceptable
*/
protected boolean[] canHandleZeroTraining(boolean nominalPredictor,
boolean numericPredictor, boolean stringPredictor, boolean datePredictor,
boolean relationalPredictor, boolean multiInstance, int classType) {
print("handle zero training instances");
printAttributeSummary(nominalPredictor, numericPredictor, stringPredictor,
datePredictor, relationalPredictor, multiInstance, classType);
print("...");
ArrayList accepts = new ArrayList();
accepts.add("train");
accepts.add("value");
int numTrain = 0, numClasses = 2, missingLevel = 0;
boolean predictorMissing = false, classMissing = false;
return runBasicTest(nominalPredictor, numericPredictor, stringPredictor,
datePredictor, relationalPredictor, multiInstance, classType,
missingLevel, predictorMissing, classMissing, numTrain, numClasses,
accepts);
}
/**
* Checks whether the scheme correctly initialises models when
* buildAssociations is called. This test calls buildAssociations with one
* training dataset. buildAssociations is then called on a training set with
* different structure, and then again with the original training set. If the
* equals method of the AssociatorEvaluation class returns false, this is
* noted as incorrect build initialisation.
*
* @param nominalPredictor if true use nominal predictor attributes
* @param numericPredictor if true use numeric predictor attributes
* @param stringPredictor if true use string predictor attributes
* @param datePredictor if true use date predictor attributes
* @param relationalPredictor if true use relational predictor attributes
* @param multiInstance whether multi-instance is needed
* @param classType the class type (NUMERIC, NOMINAL, etc.)
* @return index 0 is true if the test was passed
*/
protected boolean[] correctBuildInitialisation(boolean nominalPredictor,
boolean numericPredictor, boolean stringPredictor, boolean datePredictor,
boolean relationalPredictor, boolean multiInstance, int classType) {
boolean[] result = new boolean[2];
print("correct initialisation during buildAssociations");
printAttributeSummary(nominalPredictor, numericPredictor, stringPredictor,
datePredictor, relationalPredictor, multiInstance, classType);
print("...");
int numTrain = getNumInstances(), numClasses = 2, missingLevel = 0;
boolean predictorMissing = false, classMissing = false;
Instances train1 = null;
Instances train2 = null;
Associator associator = null;
AssociatorEvaluation evaluation1A = null;
AssociatorEvaluation evaluation1B = null;
AssociatorEvaluation evaluation2 = null;
int stage = 0;
try {
// Make two train sets with different numbers of attributes
train1 = makeTestDataset(42, numTrain, nominalPredictor ? getNumNominal()
: 0, numericPredictor ? getNumNumeric() : 0,
stringPredictor ? getNumString() : 0, datePredictor ? getNumDate() : 0,
relationalPredictor ? getNumRelational() : 0, numClasses, classType,
multiInstance);
train2 = makeTestDataset(84, numTrain,
nominalPredictor ? getNumNominal() + 1 : 0,
numericPredictor ? getNumNumeric() + 1 : 0,
stringPredictor ? getNumString() + 1 : 0,
datePredictor ? getNumDate() + 1 : 0,
relationalPredictor ? getNumRelational() + 1 : 0, numClasses,
classType, multiInstance);
if (missingLevel > 0) {
addMissing(train1, missingLevel, predictorMissing, classMissing);
addMissing(train2, missingLevel, predictorMissing, classMissing);
}
associator = AbstractAssociator.makeCopies(getAssociator(), 1)[0];
evaluation1A = new AssociatorEvaluation();
evaluation1B = new AssociatorEvaluation();
evaluation2 = new AssociatorEvaluation();
} catch (Exception ex) {
throw new Error("Error setting up for tests: " + ex.getMessage());
}
try {
stage = 0;
evaluation1A.evaluate(associator, train1);
stage = 1;
evaluation2.evaluate(associator, train2);
stage = 2;
evaluation1B.evaluate(associator, train1);
stage = 3;
if (!evaluation1A.equals(evaluation1B)) {
if (m_Debug) {
println("\n=== Full report ===\n"
+ evaluation1A.toSummaryString("\nFirst buildAssociations()")
+ "\n\n");
println(evaluation1B.toSummaryString("\nSecond buildAssociations()")
+ "\n\n");
}
throw new Exception("Results differ between buildAssociations calls");
}
println("yes");
result[0] = true;
} catch (Exception ex) {
println("no");
result[0] = false;
if (m_Debug) {
println("\n=== Full Report ===");
print("Problem during building");
switch (stage) {
case 0:
print(" of dataset 1");
break;
case 1:
print(" of dataset 2");
break;
case 2:
print(" of dataset 1 (2nd build)");
break;
case 3:
print(", comparing results from builds of dataset 1");
break;
}
println(": " + ex.getMessage() + "\n");
println("here are the datasets:\n");
println("=== Train1 Dataset ===\n" + train1.toString() + "\n");
println("=== Train2 Dataset ===\n" + train2.toString() + "\n");
}
}
return result;
}
/**
* Checks basic missing value handling of the scheme. If the missing values
* cause an exception to be thrown by the scheme, this will be recorded.
*
* @param nominalPredictor if true use nominal predictor attributes
* @param numericPredictor if true use numeric predictor attributes
* @param stringPredictor if true use string predictor attributes
* @param datePredictor if true use date predictor attributes
* @param relationalPredictor if true use relational predictor attributes
* @param multiInstance whether multi-instance is needed
* @param classType the class type (NUMERIC, NOMINAL, etc.)
* @param predictorMissing true if the missing values may be in the predictors
* @param classMissing true if the missing values may be in the class
* @param missingLevel the percentage of missing values
* @return index 0 is true if the test was passed, index 1 is true if test was
* acceptable
*/
protected boolean[] canHandleMissing(boolean nominalPredictor,
boolean numericPredictor, boolean stringPredictor, boolean datePredictor,
boolean relationalPredictor, boolean multiInstance, int classType,
boolean predictorMissing, boolean classMissing, int missingLevel) {
if (missingLevel == 100) {
print("100% ");
}
print("missing");
if (predictorMissing) {
print(" predictor");
if (classMissing) {
print(" and");
}
}
if (classMissing) {
print(" class");
}
print(" values");
printAttributeSummary(nominalPredictor, numericPredictor, stringPredictor,
datePredictor, relationalPredictor, multiInstance, classType);
print("...");
ArrayList accepts = new ArrayList();
accepts.add("missing");
accepts.add("value");
accepts.add("train");
int numTrain = getNumInstances(), numClasses = 2;
return runBasicTest(nominalPredictor, numericPredictor, stringPredictor,
datePredictor, relationalPredictor, multiInstance, classType,
missingLevel, predictorMissing, classMissing, numTrain, numClasses,
accepts);
}
/**
* Checks whether the associator can handle instance weights. This test
* compares the associator performance on two datasets that are identical
* except for the training weights. If the results change, then the associator
* must be using the weights. It may be possible to get a false positive from
* this test if the weight changes aren't significant enough to induce a
* change in associator performance (but the weights are chosen to minimize
* the likelihood of this).
*
* @param nominalPredictor if true use nominal predictor attributes
* @param numericPredictor if true use numeric predictor attributes
* @param stringPredictor if true use string predictor attributes
* @param datePredictor if true use date predictor attributes
* @param relationalPredictor if true use relational predictor attributes
* @param multiInstance whether multi-instance is needed
* @param classType the class type (NUMERIC, NOMINAL, etc.)
* @return index 0 true if the test was passed
*/
protected boolean[] instanceWeights(boolean nominalPredictor,
boolean numericPredictor, boolean stringPredictor, boolean datePredictor,
boolean relationalPredictor, boolean multiInstance, int classType) {
print("associator uses instance weights");
printAttributeSummary(nominalPredictor, numericPredictor, stringPredictor,
datePredictor, relationalPredictor, multiInstance, classType);
print("...");
int numTrain = 2 * getNumInstances(), numClasses = 2, missingLevel = 0;
boolean predictorMissing = false, classMissing = false;
boolean[] result = new boolean[2];
Instances train = null;
Associator[] associators = null;
AssociatorEvaluation evaluationB = null;
AssociatorEvaluation evaluationI = null;
boolean evalFail = false;
try {
train = makeTestDataset(42, numTrain,
nominalPredictor ? getNumNominal() + 1 : 0,
numericPredictor ? getNumNumeric() + 1 : 0,
stringPredictor ? getNumString() : 0, datePredictor ? getNumDate() : 0,
relationalPredictor ? getNumRelational() : 0, numClasses, classType,
multiInstance);
if (missingLevel > 0) {
addMissing(train, missingLevel, predictorMissing, classMissing);
}
associators = AbstractAssociator.makeCopies(getAssociator(), 2);
evaluationB = new AssociatorEvaluation();
evaluationI = new AssociatorEvaluation();
evaluationB.evaluate(associators[0], train);
} catch (Exception ex) {
throw new Error("Error setting up for tests: " + ex.getMessage());
}
try {
// Now modify instance weights and re-built/test
for (int i = 0; i < train.numInstances(); i++) {
train.instance(i).setWeight(0);
}
Random random = new Random(1);
for (int i = 0; i < train.numInstances() / 2; i++) {
int inst = random.nextInt(train.numInstances());
int weight = random.nextInt(10) + 1;
train.instance(inst).setWeight(weight);
}
evaluationI.evaluate(associators[1], train);
if (evaluationB.equals(evaluationI)) {
// println("no");
evalFail = true;
throw new Exception("evalFail");
}
println("yes");
result[0] = true;
} catch (Exception ex) {
println("no");
result[0] = false;
if (m_Debug) {
println("\n=== Full Report ===");
if (evalFail) {
println("Results don't differ between non-weighted and "
+ "weighted instance models.");
println("Here are the results:\n");
println(evaluationB.toSummaryString("\nboth methods\n"));
} else {
print("Problem during building");
println(": " + ex.getMessage() + "\n");
}
println("Here is the dataset:\n");
println("=== Train Dataset ===\n" + train.toString() + "\n");
println("=== Train Weights ===\n");
for (int i = 0; i < train.numInstances(); i++) {
println(" " + (i + 1) + " " + train.instance(i).weight());
}
}
}
return result;
}
/**
* Checks whether the scheme alters the training dataset during building. If
* the scheme needs to modify the data it should take a copy of the training
* data. Currently checks for changes to header structure, number of
* instances, order of instances, instance weights.
*
* @param nominalPredictor if true use nominal predictor attributes
* @param numericPredictor if true use numeric predictor attributes
* @param stringPredictor if true use string predictor attributes
* @param datePredictor if true use date predictor attributes
* @param relationalPredictor if true use relational predictor attributes
* @param multiInstance whether multi-instance is needed
* @param classType the class type (NUMERIC, NOMINAL, etc.)
* @param predictorMissing true if we know the associator can handle (at
* least) moderate missing predictor values
* @param classMissing true if we know the associator can handle (at least)
* moderate missing class values
* @return index 0 is true if the test was passed
*/
protected boolean[] datasetIntegrity(boolean nominalPredictor,
boolean numericPredictor, boolean stringPredictor, boolean datePredictor,
boolean relationalPredictor, boolean multiInstance, int classType,
boolean predictorMissing, boolean classMissing) {
print("associator doesn't alter original datasets");
printAttributeSummary(nominalPredictor, numericPredictor, stringPredictor,
datePredictor, relationalPredictor, multiInstance, classType);
print("...");
int numTrain = getNumInstances(), numClasses = 2, missingLevel = 20;
boolean[] result = new boolean[2];
Instances train = null;
Associator associator = null;
try {
train = makeTestDataset(42, numTrain, nominalPredictor ? getNumNominal()
: 0, numericPredictor ? getNumNumeric() : 0,
stringPredictor ? getNumString() : 0, datePredictor ? getNumDate() : 0,
relationalPredictor ? getNumRelational() : 0, numClasses, classType,
multiInstance);
if (missingLevel > 0) {
addMissing(train, missingLevel, predictorMissing, classMissing);
}
associator = AbstractAssociator.makeCopies(getAssociator(), 1)[0];
} catch (Exception ex) {
throw new Error("Error setting up for tests: " + ex.getMessage());
}
try {
Instances trainCopy = new Instances(train);
associator.buildAssociations(trainCopy);
compareDatasets(train, trainCopy);
println("yes");
result[0] = true;
} catch (Exception ex) {
println("no");
result[0] = false;
if (m_Debug) {
println("\n=== Full Report ===");
print("Problem during building");
println(": " + ex.getMessage() + "\n");
println("Here is the dataset:\n");
println("=== Train Dataset ===\n" + train.toString() + "\n");
}
}
return result;
}
/**
* Runs a text on the datasets with the given characteristics.
*
* @param nominalPredictor if true use nominal predictor attributes
* @param numericPredictor if true use numeric predictor attributes
* @param stringPredictor if true use string predictor attributes
* @param datePredictor if true use date predictor attributes
* @param relationalPredictor if true use relational predictor attributes
* @param multiInstance whether multi-instance is needed
* @param classType the class type (NUMERIC, NOMINAL, etc.)
* @param missingLevel the percentage of missing values
* @param predictorMissing true if the missing values may be in the predictors
* @param classMissing true if the missing values may be in the class
* @param numTrain the number of instances in the training set
* @param numClasses the number of classes
* @param accepts the acceptable string in an exception
* @return index 0 is true if the test was passed, index 1 is true if test was
* acceptable
*/
protected boolean[] runBasicTest(boolean nominalPredictor,
boolean numericPredictor, boolean stringPredictor, boolean datePredictor,
boolean relationalPredictor, boolean multiInstance, int classType,
int missingLevel, boolean predictorMissing, boolean classMissing,
int numTrain, int numClasses, ArrayList accepts) {
return runBasicTest(nominalPredictor, numericPredictor, stringPredictor,
datePredictor, relationalPredictor, multiInstance, classType,
TestInstances.CLASS_IS_LAST, missingLevel, predictorMissing,
classMissing, numTrain, numClasses, accepts);
}
/**
* Runs a text on the datasets with the given characteristics.
*
* @param nominalPredictor if true use nominal predictor attributes
* @param numericPredictor if true use numeric predictor attributes
* @param stringPredictor if true use string predictor attributes
* @param datePredictor if true use date predictor attributes
* @param relationalPredictor if true use relational predictor attributes
* @param multiInstance whether multi-instance is needed
* @param classType the class type (NUMERIC, NOMINAL, etc.)
* @param classIndex the attribute index of the class
* @param missingLevel the percentage of missing values
* @param predictorMissing true if the missing values may be in the predictors
* @param classMissing true if the missing values may be in the class
* @param numTrain the number of instances in the training set
* @param numClasses the number of classes
* @param accepts the acceptable string in an exception
* @return index 0 is true if the test was passed, index 1 is true if test was
* acceptable
*/
protected boolean[] runBasicTest(boolean nominalPredictor,
boolean numericPredictor, boolean stringPredictor, boolean datePredictor,
boolean relationalPredictor, boolean multiInstance, int classType,
int classIndex, int missingLevel, boolean predictorMissing,
boolean classMissing, int numTrain, int numClasses,
ArrayList accepts) {
boolean[] result = new boolean[2];
Instances train = null;
Associator associator = null;
try {
train = makeTestDataset(42, numTrain, nominalPredictor ? getNumNominal()
: 0, numericPredictor ? getNumNumeric() : 0,
stringPredictor ? getNumString() : 0, datePredictor ? getNumDate() : 0,
relationalPredictor ? getNumRelational() : 0, numClasses, classType,
classIndex, multiInstance);
if (missingLevel > 0) {
addMissing(train, missingLevel, predictorMissing, classMissing);
}
associator = AbstractAssociator.makeCopies(getAssociator(), 1)[0];
} catch (Exception ex) {
ex.printStackTrace();
throw new Error("Error setting up for tests: " + ex.getMessage());
}
try {
associator.buildAssociations(train);
println("yes");
result[0] = true;
} catch (Exception ex) {
boolean acceptable = false;
String msg;
if (ex.getMessage() == null) {
msg = "";
} else {
msg = ex.getMessage().toLowerCase();
}
if (msg.indexOf("not in classpath") > -1) {
m_ClasspathProblems = true;
}
for (int i = 0; i < accepts.size(); i++) {
if (msg.indexOf(accepts.get(i)) >= 0) {
acceptable = true;
}
}
println("no" + (acceptable ? " (OK error message)" : ""));
result[1] = acceptable;
if (m_Debug) {
println("\n=== Full Report ===");
print("Problem during building");
println(": " + ex.getMessage() + "\n");
if (!acceptable) {
if (accepts.size() > 0) {
print("Error message doesn't mention ");
for (int i = 0; i < accepts.size(); i++) {
if (i != 0) {
print(" or ");
}
print('"' + accepts.get(i) + '"');
}
}
println("here is the dataset:\n");
println("=== Train Dataset ===\n" + train.toString() + "\n");
}
}
}
return result;
}
/**
* Make a simple set of instances, which can later be modified for use in
* specific tests.
*
* @param seed the random number seed
* @param numInstances the number of instances to generate
* @param numNominal the number of nominal attributes
* @param numNumeric the number of numeric attributes
* @param numString the number of string attributes
* @param numDate the number of date attributes
* @param numRelational the number of relational attributes
* @param numClasses the number of classes (if nominal class)
* @param classType the class type (NUMERIC, NOMINAL, etc.)
* @param multiInstance whether the dataset should a multi-instance dataset
* @return the test dataset
* @throws Exception if the dataset couldn't be generated
* @see #process(Instances)
*/
protected Instances makeTestDataset(int seed, int numInstances,
int numNominal, int numNumeric, int numString, int numDate,
int numRelational, int numClasses, int classType, boolean multiInstance)
throws Exception {
return makeTestDataset(seed, numInstances, numNominal, numNumeric,
numString, numDate, numRelational, numClasses, classType,
TestInstances.CLASS_IS_LAST, multiInstance);
}
/**
* Make a simple set of instances with variable position of the class
* attribute, which can later be modified for use in specific tests.
*
* @param seed the random number seed
* @param numInstances the number of instances to generate
* @param numNominal the number of nominal attributes
* @param numNumeric the number of numeric attributes
* @param numString the number of string attributes
* @param numDate the number of date attributes
* @param numRelational the number of relational attributes
* @param numClasses the number of classes (if nominal class)
* @param classType the class type (NUMERIC, NOMINAL, etc.)
* @param classIndex the index of the class (0-based, -1 as last)
* @param multiInstance whether the dataset should a multi-instance dataset
* @return the test dataset
* @throws Exception if the dataset couldn't be generated
* @see TestInstances#CLASS_IS_LAST
* @see #process(Instances)
*/
protected Instances makeTestDataset(int seed, int numInstances,
int numNominal, int numNumeric, int numString, int numDate,
int numRelational, int numClasses, int classType, int classIndex,
boolean multiInstance) throws Exception {
TestInstances dataset = new TestInstances();
dataset.setSeed(seed);
dataset.setNumInstances(numInstances);
dataset.setNumNominal(numNominal);
dataset.setNumNumeric(numNumeric);
dataset.setNumString(numString);
dataset.setNumDate(numDate);
dataset.setNumRelational(numRelational);
dataset.setNumClasses(numClasses);
if (classType == NO_CLASS) {
dataset.setClassType(Attribute.NOMINAL); // ignored
dataset.setClassIndex(TestInstances.NO_CLASS);
} else {
dataset.setClassType(classType);
dataset.setClassIndex(classIndex);
}
dataset.setNumClasses(numClasses);
dataset.setMultiInstance(multiInstance);
dataset.setWords(getWords());
dataset.setWordSeparators(getWordSeparators());
return process(dataset.generate());
}
/**
* Print out a short summary string for the dataset characteristics
*
* @param nominalPredictor true if nominal predictor attributes are present
* @param numericPredictor true if numeric predictor attributes are present
* @param stringPredictor true if string predictor attributes are present
* @param datePredictor true if date predictor attributes are present
* @param relationalPredictor true if relational predictor attributes are
* present
* @param multiInstance whether multi-instance is needed
* @param classType the class type (NUMERIC, NOMINAL, etc.)
*/
protected void printAttributeSummary(boolean nominalPredictor,
boolean numericPredictor, boolean stringPredictor, boolean datePredictor,
boolean relationalPredictor, boolean multiInstance, int classType) {
String str = "";
if (numericPredictor) {
str += " numeric";
}
if (nominalPredictor) {
if (str.length() > 0) {
str += " &";
}
str += " nominal";
}
if (stringPredictor) {
if (str.length() > 0) {
str += " &";
}
str += " string";
}
if (datePredictor) {
if (str.length() > 0) {
str += " &";
}
str += " date";
}
if (relationalPredictor) {
if (str.length() > 0) {
str += " &";
}
str += " relational";
}
str += " predictors)";
switch (classType) {
case Attribute.NUMERIC:
str = " (numeric class," + str;
break;
case Attribute.NOMINAL:
str = " (nominal class," + str;
break;
case Attribute.STRING:
str = " (string class," + str;
break;
case Attribute.DATE:
str = " (date class," + str;
break;
case Attribute.RELATIONAL:
str = " (relational class," + str;
break;
case NO_CLASS:
str = " (no class," + str;
break;
}
print(str);
}
/**
* Returns the revision string.
*
* @return the revision
*/
@Override
public String getRevision() {
return RevisionUtils.extract("$Revision: 11247 $");
}
/**
* Test method for this class
*
* @param args the commandline parameters
*/
public static void main(String[] args) {
runCheck(new CheckAssociator(), args);
}
}
