package dr.inferencexml.operators;
import dr.xml.*;
import dr.inference.operators.MCMCOperator;
import dr.inference.operators.RandomWalkIntegerOperator;
import dr.inference.operators.RandomWalkIntegerNodeHeightWeightedOperator;
import dr.inference.model.Parameter;
/**
* @author Chieh-Hsi Wu
*
* The parser for random walk integer node height weighted operator.
*/
public class RandomWalkIntegerNodeHeightWeightedOperatorParser extends AbstractXMLObjectParser {
public static final String RANDOM_WALK_INT_NODE_HEIGHT_WGT_OP = "randomWalkIntegerNodeHeightWeightedOperator";
public static final String WINDOW_SIZE = "windowSize";
public static final String INTERNAL_NODE_HEIGHTS = "internalNodeHeights";
public String getParserName() {
return RANDOM_WALK_INT_NODE_HEIGHT_WGT_OP;
}
public Object parseXMLObject(XMLObject xo) throws XMLParseException {
double weight = xo.getDoubleAttribute(MCMCOperator.WEIGHT);
double d = xo.getDoubleAttribute(WINDOW_SIZE);
if (d != Math.floor(d)) {
throw new XMLParseException("The window size of a " + RANDOM_WALK_INT_NODE_HEIGHT_WGT_OP + " should be an integer");
}
int windowSize = (int)d;
Parameter parameter = (Parameter) xo.getChild(Parameter.class);
Parameter internalNodeHeights = (Parameter)xo.getElementFirstChild(INTERNAL_NODE_HEIGHTS);
return new RandomWalkIntegerNodeHeightWeightedOperator(parameter, windowSize, weight, internalNodeHeights);
}
public String getParserDescription() {
return "This element returns a random walk node height weighted operator on a given parameter.";
}
public Class getReturnType() {
return RandomWalkIntegerNodeHeightWeightedOperator.class;
}
public XMLSyntaxRule[] getSyntaxRules() {
return rules;
}
private XMLSyntaxRule[] rules = new XMLSyntaxRule[]{
AttributeRule.newDoubleRule(WINDOW_SIZE),
AttributeRule.newDoubleRule(MCMCOperator.WEIGHT),
new ElementRule(Parameter.class),
new ElementRule(INTERNAL_NODE_HEIGHTS, new XMLSyntaxRule[]{new ElementRule(Parameter.class)})
};
}