package dr.inferencexml.model;
import dr.inference.model.CoulombPrior;
import dr.inference.model.OneOnXPrior;
import dr.inference.model.Statistic;
import dr.xml.*;
/**
* Reads a distribution likelihood from a DOM Document element.
*/
public class CoulombPriorParser extends AbstractXMLObjectParser {
public static final String COULOMB_PRIOR = "coulombPrior";
public static final String BETA = "beta";
public static final String DATA = "data";
public String getParserName() {
return COULOMB_PRIOR;
}
public Object parseXMLObject(XMLObject xo) throws XMLParseException {
XMLObject cxo = xo;
final double beta = xo.getDoubleAttribute(BETA);
if (xo.hasChildNamed(DATA)) {
cxo = xo.getChild(DATA);
}
CoulombPrior likelihood = new CoulombPrior(beta);
for (int i = 0; i < cxo.getChildCount(); i++) {
if (cxo.getChild(i) instanceof Statistic) {
likelihood.addData((Statistic) cxo.getChild(i));
}
}
return likelihood;
}
//************************************************************************
// AbstractXMLObjectParser implementation
//************************************************************************
public XMLSyntaxRule[] getSyntaxRules() {
return rules;
}
private final XMLSyntaxRule[] rules = {
AttributeRule.newDoubleRule(BETA),
new XORRule(
new ElementRule(Statistic.class, 1, Integer.MAX_VALUE),
new ElementRule(DATA, new XMLSyntaxRule[]{new ElementRule(Statistic.class, 1, Integer.MAX_VALUE)})
)
};
public String getParserDescription() {
return "Calculates a prior density based on the force due to electrostatic charge between particles the given distance x.";
}
public Class getReturnType() {
return OneOnXPrior.class;
}
}