📄 databaseresultproducer.java
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*/
public Object [] getKeyTypes() throws Exception {
return m_ResultProducer.getKeyTypes();
}
/**
* Gets the names of each of the columns produced for a single run.
* A new result field is added for the number of results used to
* produce each average.
* If only averages are being produced the names are not altered, if
* standard deviations are produced then "Dev_" and "Avg_" are prepended
* to each result deviation and average field respectively.
*
* @return an array containing the name of each column
* @exception Exception if something goes wrong.
*/
public String [] getResultNames() throws Exception {
return m_ResultProducer.getResultNames();
}
/**
* Gets the data types of each of the columns produced for a single run.
*
* @return an array containing objects of the type of each column. The
* objects should be Strings, or Doubles.
* @exception Exception if something goes wrong.
*/
public Object [] getResultTypes() throws Exception {
return m_ResultProducer.getResultTypes();
}
/**
* Gets a description of the internal settings of the result
* producer, sufficient for distinguishing a ResultProducer
* instance from another with different settings (ignoring
* those settings set through this interface). For example,
* a cross-validation ResultProducer may have a setting for the
* number of folds. For a given state, the results produced should
* be compatible. Typically if a ResultProducer is an OptionHandler,
* this string will represent the command line arguments required
* to set the ResultProducer to that state.
*
* @return the description of the ResultProducer state, or null
* if no state is defined
*/
public String getCompatibilityState() {
String result = "";
if (m_ResultProducer == null) {
result += "<null ResultProducer>";
} else {
result += "-W " + m_ResultProducer.getClass().getName();
}
result += " -- " + m_ResultProducer.getCompatibilityState();
return result.trim();
}
/**
* Returns an enumeration describing the available options..
*
* @return an enumeration of all the available options.
*/
public Enumeration listOptions() {
Vector newVector = new Vector(2);
newVector.addElement(new Option(
"\tThe name of the database field to cache over.\n"
+"\teg: \"Fold\" (default none)",
"F", 1,
"-F <field name>"));
newVector.addElement(new Option(
"\tThe full class name of a ResultProducer.\n"
+"\teg: weka.experiment.CrossValidationResultProducer",
"W", 1,
"-W <class name>"));
if ((m_ResultProducer != null) &&
(m_ResultProducer instanceof OptionHandler)) {
newVector.addElement(new Option(
"",
"", 0, "\nOptions specific to result producer "
+ m_ResultProducer.getClass().getName() + ":"));
Enumeration em = ((OptionHandler)m_ResultProducer).listOptions();
while (em.hasMoreElements()) {
newVector.addElement(em.nextElement());
}
}
return newVector.elements();
}
/**
* Parses a given list of options. Valid options are:<p>
*
* -W classname <br>
* Specify the full class name of the result producer. <p>
*
* All option after -- will be passed to the result producer.
*
* @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 {
setCacheKeyName(Utils.getOption('F', options));
String rpName = Utils.getOption('W', options);
if (rpName.length() == 0) {
throw new Exception("A ResultProducer must be specified with"
+ " the -W option.");
}
// Do it first without options, so if an exception is thrown during
// the option setting, listOptions will contain options for the actual
// RP.
setResultProducer((ResultProducer)Utils.forName(
ResultProducer.class,
rpName,
null));
if (getResultProducer() instanceof OptionHandler) {
((OptionHandler) getResultProducer())
.setOptions(Utils.partitionOptions(options));
}
}
/**
* Gets the current settings of the result producer.
*
* @return an array of strings suitable for passing to setOptions
*/
public String [] getOptions() {
String [] seOptions = new String [0];
if ((m_ResultProducer != null) &&
(m_ResultProducer instanceof OptionHandler)) {
seOptions = ((OptionHandler)m_ResultProducer).getOptions();
}
String [] options = new String [seOptions.length + 8];
int current = 0;
if (!getCacheKeyName().equals("")) {
options[current++] = "-F";
options[current++] = getCacheKeyName();
}
if (getResultProducer() != null) {
options[current++] = "-W";
options[current++] = getResultProducer().getClass().getName();
}
options[current++] = "--";
System.arraycopy(seOptions, 0, options, current,
seOptions.length);
current += seOptions.length;
while (current < options.length) {
options[current++] = "";
}
return options;
}
/**
* Set a list of method names for additional measures to look for
* in SplitEvaluators. This could contain many measures (of which only a
* subset may be produceable by the current resultProducer) if an experiment
* is the type that iterates over a set of properties.
* @param additionalMeasures an array of measure names, null if none
*/
public void setAdditionalMeasures(String [] additionalMeasures) {
m_AdditionalMeasures = additionalMeasures;
if (m_ResultProducer != null) {
System.err.println("DatabaseResultProducer: setting additional "
+"measures for "
+"ResultProducer");
m_ResultProducer.setAdditionalMeasures(m_AdditionalMeasures);
}
}
/**
* Returns an enumeration of any additional measure names that might be
* in the result producer
* @return an enumeration of the measure names
*/
public Enumeration emerateMeasures() {
Vector newVector = new Vector();
if (m_ResultProducer instanceof AdditionalMeasureProducer) {
Enumeration en = ((AdditionalMeasureProducer)m_ResultProducer).
emerateMeasures();
while (en.hasMoreElements()) {
String mname = (String)en.nextElement();
newVector.addElement(mname);
}
}
return newVector.elements();
}
/**
* Returns the value of the named measure
* @param measureName the name of the measure to query for its value
* @return the value of the named measure
* @exception IllegalArgumentException if the named measure is not supported
*/
public double getMeasure(String additionalMeasureName) {
if (m_ResultProducer instanceof AdditionalMeasureProducer) {
return ((AdditionalMeasureProducer)m_ResultProducer).
getMeasure(additionalMeasureName);
} else {
throw new IllegalArgumentException("DatabaseResultProducer: "
+"Can't return value for : "+additionalMeasureName
+". "+m_ResultProducer.getClass().getName()+" "
+"is not an AdditionalMeasureProducer");
}
}
/**
* Sets the dataset that results will be obtained for.
*
* @param instances a value of type 'Instances'.
*/
public void setInstances(Instances instances) {
m_Instances = instances;
}
/**
* Sets the object to send results of each run to.
*
* @param listener a value of type 'ResultListener'
*/
public void setResultListener(ResultListener listener) {
m_ResultListener = listener;
}
/**
* Returns the tip text for this property
* @return tip text for this property suitable for
* displaying in the explorer/experimenter gui
*/
public String resultProducerTipText() {
return "Set the result producer to use. If some results are not found "
+"in the source database then this result producer is used to generate "
+"them.";
}
/**
* Get the ResultProducer.
*
* @return the ResultProducer.
*/
public ResultProducer getResultProducer() {
return m_ResultProducer;
}
/**
* Set the ResultProducer.
*
* @param newResultProducer new ResultProducer to use.
*/
public void setResultProducer(ResultProducer newResultProducer) {
m_ResultProducer = newResultProducer;
}
/**
* Gets a text descrption of the result producer.
*
* @return a text description of the result producer.
*/
public String toString() {
String result = "DatabaseResultProducer: ";
result += getCompatibilityState();
if (m_Instances == null) {
result += ": <null Instances>";
} else {
result += ": " + Utils.backQuoteChars(m_Instances.relationName());
}
return result;
}
} // DatabaseResultProducer
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