package dr.inferencexml.distribution;
import dr.inference.distribution.AbstractDistributionLikelihood;
import dr.inference.distribution.CachedDistributionLikelihood;
import dr.inference.distribution.DistributionLikelihood;
import dr.inference.model.Variable;
import dr.xml.*;
import java.util.logging.Logger;
/**
* @author Marc Suchard
*/
public class CachedDistributionLikelihoodParser extends AbstractXMLObjectParser {
public static final String CACHED_PRIOR = "cachedPrior";
// public static final String RATE_BLOCK = "rates";
//public static final String INDICATOR_BLOCK = "indicators";
public String getParserName() {
return CACHED_PRIOR;
}
public Object parseXMLObject(XMLObject xo) throws XMLParseException {
final String name = xo.hasId() ? xo.getId() : CACHED_PRIOR;
final AbstractDistributionLikelihood likelihood = (AbstractDistributionLikelihood) xo.getChild(AbstractDistributionLikelihood.class);
final Variable variable = (Variable) xo.getChild(Variable.class);
final Logger logger = Logger.getLogger("dr.inference");
logger.info("Constructing a cache around likelihood '" + likelihood.getId() + "', signal = " + variable.getVariableName());
return new CachedDistributionLikelihood(name, likelihood, variable);
}
//************************************************************************
// AbstractXMLObjectParser implementation
//************************************************************************
public XMLSyntaxRule[] getSyntaxRules() {
return rules;
}
private final XMLSyntaxRule[] rules = {
new ElementRule(AbstractDistributionLikelihood.class),
new ElementRule(Variable.class),
};
public String getParserDescription() {
return "Calculates a cached likelihood of some data given some parametric or empirical distribution.";
}
public Class getReturnType() {
return DistributionLikelihood.class;
}
}