/** * Define a classification structure of the form P(A|B) = P(C) * * @param line */ public void defineClassificationStructure(String line) { List<ParsedProbability> list = ParseProbability.parseProbabilityList(this, line); if (list.size() > 1) { throw new BayesianError("Must only define a single probability, not a chain."); } if (list.size() == 0) { throw new BayesianError("Must define at least one probability."); } // first define everything to be hidden for (BayesianEvent event : this.events) { this.query.defineEventType(event, EventType.Hidden); } // define the base event ParsedProbability prob = list.get(0); if (prob.getBaseEvents().size() == 0) { return; } BayesianEvent be = this.getEvent(prob.getChildEvent().getLabel()); this.classificationTarget = this.events.indexOf(be); this.query.defineEventType(be, EventType.Outcome); // define the given events for (ParsedEvent parsedGiven : prob.getGivenEvents()) { BayesianEvent given = this.getEvent(parsedGiven.getLabel()); this.query.defineEventType(given, EventType.Evidence); } this.query.locateEventTypes(); // set the values for (ParsedEvent parsedGiven : prob.getGivenEvents()) { BayesianEvent event = this.getEvent(parsedGiven.getLabel()); this.query.setEventValue(event, parseInt(parsedGiven.getValue())); } this.query.setEventValue(be, parseInt(prob.getBaseEvents().get(0).getValue())); }
/** * Perform a query. * * @param line The query. * @return The probability. */ public double performQuery(String line) { if (this.query == null) { throw new BayesianError("This Bayesian network does not have a query to define."); } ParseProbability parse = new ParseProbability(this); ParsedProbability parsedProbability = parse.parse(line); // create a temp query BayesianQuery q = this.query.clone(); // first, mark all events as hidden q.reset(); // deal with evidence (input) for (ParsedEvent parsedEvent : parsedProbability.getGivenEvents()) { BayesianEvent event = this.requireEvent(parsedEvent.getLabel()); q.defineEventType(event, EventType.Evidence); q.setEventValue(event, parsedEvent.resolveValue(event)); } // deal with outcome (output) for (ParsedEvent parsedEvent : parsedProbability.getBaseEvents()) { BayesianEvent event = requireEvent(parsedEvent.getLabel()); q.defineEventType(event, EventType.Outcome); q.setEventValue(event, parsedEvent.resolveValue(event)); } q.locateEventTypes(); q.execute(); return q.getProbability(); }
/** * Define the structure of the Bayesian network as a string. * * @param line The string to define events and relations. */ public void setContents(String line) { List<ParsedProbability> list = ParseProbability.parseProbabilityList(this, line); List<String> labelList = new ArrayList<String>(); // ensure that all events are there for (ParsedProbability prob : list) { ParsedEvent parsedEvent = prob.getChildEvent(); String eventLabel = parsedEvent.getLabel(); labelList.add(eventLabel); // create event, if not already here BayesianEvent e = getEvent(eventLabel); if (e == null) { List<BayesianChoice> cl = new ArrayList<BayesianChoice>(); for (ParsedChoice c : parsedEvent.getList()) { cl.add(new BayesianChoice(c.getLabel(), c.getMin(), c.getMax())); } createEvent(eventLabel, cl); } } // now remove all events that were not covered for (int i = 0; i < events.size(); i++) { BayesianEvent event = this.events.get(i); if (!labelList.contains(event.getLabel())) { removeEvent(event); } } // handle dependencies for (ParsedProbability prob : list) { ParsedEvent parsedEvent = prob.getChildEvent(); String eventLabel = parsedEvent.getLabel(); BayesianEvent event = requireEvent(eventLabel); // ensure that all "givens" are present List<String> givenList = new ArrayList<String>(); for (ParsedEvent given : prob.getGivenEvents()) { if (!event.hasGiven(given.getLabel())) { BayesianEvent givenEvent = requireEvent(given.getLabel()); this.createDependency(givenEvent, event); } givenList.add(given.getLabel()); } // now remove givens that were not covered for (int i = 0; i < event.getParents().size(); i++) { BayesianEvent event2 = event.getParents().get(i); if (!givenList.contains(event2.getLabel())) { removeDependency(event2, event); } } } // finalize the structure finalizeStructure(); if (this.query != null) { this.query.finalizeStructure(); } }