package org.maltparser.parser.algorithm.planar;
import org.maltparser.core.exception.MaltChainedException;
import org.maltparser.core.feature.function.Function;
import org.maltparser.parser.AbstractParserFactory;
import org.maltparser.parser.Algorithm;
import org.maltparser.parser.DependencyParserConfig;
import org.maltparser.parser.ParserConfiguration;
/**
* @author Carlos Gomez Rodriguez
*
*/
public abstract class PlanarFactory implements AbstractParserFactory {
protected Algorithm algorithm;
protected DependencyParserConfig manager;
public PlanarFactory(Algorithm algorithm) {
setAlgorithm(algorithm);
setManager(algorithm.getManager());
}
public ParserConfiguration makeParserConfiguration() throws MaltChainedException {
if (manager.getConfigLogger().isInfoEnabled()) {
manager.getConfigLogger().info(" Parser configuration : Planar with no_covered_roots = " + manager.getOptionValue("planar", "no_covered_roots").toString().toUpperCase() + ", " + "acyclicity = " + manager.getOptionValue("planar", "acyclicity").toString().toUpperCase() + ", connectedness = " + manager.getOptionValue("planar", "connectedness").toString().toUpperCase() + "\n");
}
return new PlanarConfig(manager.getSymbolTables() , manager.getOptionValue("planar", "no_covered_roots").toString() , manager.getOptionValue("planar", "acyclicity").toString() , manager.getOptionValue("planar", "connectedness").toString());
}
public Function makeFunction(String subFunctionName) throws MaltChainedException {
return new PlanarAddressFunction(subFunctionName, algorithm);
}
public Algorithm getAlgorithm() {
return algorithm;
}
public void setAlgorithm(Algorithm algorithm) {
this.algorithm = algorithm;
}
public DependencyParserConfig getManager() {
return manager;
}
public void setManager(DependencyParserConfig manager) {
this.manager = manager;
}
}