private double entropy(Map<String, String> specifiedAttributes) { double totalExamples = records.count(); double positiveExamples = records.countPositive(specifiedAttributes); double negativeExamples = records.countNegative(specifiedAttributes); return -nlog2(positiveExamples / totalExamples) - nlog2(negativeExamples / totalExamples); }
private double entropy( String attribute, String decision, Map<String, String> specifiedAttributes) { double totalExamples = records.count(attribute, decision, specifiedAttributes); double positiveExamples = records.countPositive(attribute, decision, specifiedAttributes); double negativeExamples = records.countNegative(attribute, decision, specifiedAttributes); // logger.info("positiveExamples is --> {}.", positiveExamples); // logger.info("negativeExamples is --> {}.", negativeExamples); // logger.info("totalExamples is --> {}.", totalExamples); if (positiveExamples == 0 || negativeExamples == 0 || totalExamples == 0) return 0; return -nlog2(positiveExamples / totalExamples) - nlog2(negativeExamples / totalExamples); }
/** * Returns the next attribute to be chosen. * * <p>chosenAttributes represents the decision path from the root attribute to the node under * consideration. usedAttributes is the set of all attributes that have been incorporated into the * tree prior to this call to nextAttribute(), even if the attributes were not used in the path to * the node under consideration. * * <p>Results are undefined if records.count() == 0. */ public Attribute nextAttribute(Map<String, String> chosenAttributes, Set<String> usedAttributes) { double currentGain = 0.0, bestGain = 0.0; String bestAttribute = ""; /* * If there are no positive records for the already chosen attributes, * then return a false classifier leaf. If no negative records, * then return a true classifier leaf. */ if (records.countPositive(chosenAttributes) == 0) return new Attribute(false); else if (records.countNegative(chosenAttributes) == 0) return new Attribute(true); logger.info( "Choosing attribute out of {} remaining attributes.", remainingAttributes(usedAttributes).size()); logger.info("Already chosen attributes/decisions are {}.", chosenAttributes); for (String attribute : remainingAttributes(usedAttributes)) { // for each remaining attribute, determine the information gain of using it // to choose among the records selected by the chosenAttributes // if none give any information gain, return a leaf attribute, // otherwise return the found attribute as a non-leaf attribute currentGain = informationGain(attribute, chosenAttributes); logger.info("Evaluating attribute {}, information gain is {}", attribute, currentGain); if (currentGain > bestGain) { bestAttribute = attribute; bestGain = currentGain; } } // If no attribute gives information gain, generate leaf attribute. // Leaf is true if there are any true classifiers. // If there is at least one negative example, then the information gain // would be greater than 0. if (bestGain == 0.0) { boolean classifier = records.countPositive(chosenAttributes) > 0; logger.warn("Creating new leaf attribute with classifier {}.", classifier); return new Attribute(classifier); } else { logger.info("Creating new non-leaf attribute {}.", bestAttribute); return new Attribute(bestAttribute); } }