オントロジー作成の途中で立ち往生しています。私の目的である Java を使用して OWL ファイルを作成したいと考えています。階層クラスターを作成しましたが、これらのクラスターをオントロジーの作成に使用する必要があります。
前もって感謝します。
私はこれまでにこれを試しました。私はディキンソンの主張を理解しました。これが私のコードで、スレッド「メイン」com.hp.hpl.jena.shared.BadURIException: Only well-formed absolute URIrefs can be included in RDF/XML output: Code: 57/REQUIRED_COMPONENT_MISSING で例外として例外を取得しています。 in SCHEME: スキームに必要なコンポーネントがありません。
JenaOwl.java
public class JenaOwl {
static OntModel jenaModel = null;
public static void main(String[] args) throws IOException {
JenaOwl jo = new JenaOwl();
FileWriter fw = null;
try {
jenaModel = createModel();
} catch (Exception ex) {
Logger.getLogger(JenaOwl.class.getName()).log(Level.SEVERE, null, ex);
}
OutputStream output = null;
try {
fw = new FileWriter("D:/mymodel.owl");
jenaModel.write( fw, "RDF/XML-ABBREV" );
fw.close();
// OR Turtle format - compact and more readable
// use this variant if you're not sure which to use!
fw = new FileWriter("D:/mymodel.ttl");
jenaModel.write( fw, "Turtle" );
// output = new FileOutputStream(new File("D:/Sample.owl"));
// jenaModel.write(output);
//jo.write(output);
} finally {
if (fw != null) {
try {
fw.close();
}
catch (IOException ignore) {
}
}
}
}
//jenaModel.write(output)}
public static OntModel createModel() throws Exception {
jenaModel = ModelFactory.createOntologyModel(OntModelSpec.OWL_DL_MEM);
jenaModel.setNsPrefix("ot", OT.NS);
jenaModel.setNsPrefix("owl", OWL.NS);
jenaModel.setNsPrefix("dc", DC.NS);
// OT ot = new OT();
// OT.OTClass otc;
System.out.println("jenaModel.getOntClass(OT.OTClass.Dataset.getNS()) : "+jenaModel.getOntClass(OT.OTClass.Dataset.getNS()));
Individual dataset = jenaModel.createIndividual("Dataset URI", jenaModel.getOntClass(OT.OTClass.Dataset.getNS()));
OT.OTClass.Dataset.createOntClass(jenaModel);
OT.OTClass.DataEntry.createOntClass(jenaModel);
OT.OTClass.Feature.createOntClass(jenaModel);
OT.OTClass.FeatureValue.createOntClass(jenaModel);
OT.OTClass.Compound.createOntClass(jenaModel);
Individual dataEntry = jenaModel.createIndividual(OT.OTClass.DataEntry.getOntClass(jenaModel));
dataset.addProperty(OT.dataEntry, dataEntry);
Individual compound = jenaModel.createIndividual("compoundURI", OT.OTClass.Compound.getOntClass(jenaModel));
dataEntry.addProperty(OT.compound, compound);
// First
Individual feature1 = jenaModel.createIndividual("featureURI1", OT.OTClass.Feature.getOntClass(jenaModel));
Individual featureValue1 = jenaModel.createIndividual(OT.OTClass.FeatureValue.getOntClass(jenaModel));
featureValue1.addProperty(OT.feature, feature1);
featureValue1.addLiteral(OT.value, jenaModel.createTypedLiteral("formaldehyde", XSDDatatype.XSDstring));
//Second value
Individual feature2 = jenaModel.createIndividual("featureURI2", OT.OTClass.Feature.getOntClass(jenaModel));
Individual featureValue2 = jenaModel.createIndividual(OT.OTClass.FeatureValue.getOntClass(jenaModel));
featureValue2.addProperty(OT.feature, feature2);
featureValue2.addLiteral(OT.value, jenaModel.createTypedLiteral(3.14, XSDDatatype.XSDdouble));
//and finally add values to the data entry
dataEntry.addProperty(OT.values, featureValue1);
dataEntry.addProperty(OT.values, featureValue2);
return jenaModel;
}
public void write(OutputStream output) {
MediaType mediaType = new MediaType(null);
if (mediaType.equals(MediaType.APPLICATION_RDF_XML)) //jenaModel.write(output,"RDF/XML"); //this is faster
{
jenaModel.write(output, "RDF/XML-ABBREV"); //this is more readable
} else if (mediaType.equals(MediaType.APPLICATION_RDF_XML)) {
jenaModel.write(output, "TURTLE");
} else if (mediaType.equals(MediaType.TEXT_RDF_N3)) {
jenaModel.write(output, "N3");
} else if (mediaType.equals(MediaType.TEXT_RDF_N3)) {
jenaModel.write(output, "N-TRIPLE");
} else {
jenaModel.write(output, "RDF/XML-ABBREV");
}
}
;
}
OT.java
public class OT {
public enum OTClass {
Compound,
Conformer,
Dataset,
DataEntry,
Feature,
FeatureValue,
Algorithm,
Model,
Validation,
ValidationInfo;
public String getNS() {
System.out.println("String.format(_NS, toString()) : " + String.format(_NS, toString()));
return String.format(_NS, toString());
}
public OntClass getOntClass(OntModel model) {
return model.getOntClass(getNS());
}
public OntClass createOntClass(OntModel model) {
return model.createClass(getNS());
}
public Property createProperty(OntModel model) {
return model.createProperty(getNS());
}
};
/** <p>The RDF model that holds the vocabulary terms</p> */
private static Model m_model = ModelFactory.createDefaultModel();
/** <p>The namespace of the vocabalary as a string ({@value})</p> */
protected static final String _NS = "http://www.opentox.org/api/1.1#%s";
public static final String NS = String.format(_NS, "");
public static String getURI() {
return NS;
}
/** <p>The namespace of the vocabalary as a resource</p> */
public static final Resource NAMESPACE = m_model.createResource(NS);
/**
* Object properties
*/
public static final Property dataEntry = m_model.createProperty(String.format(_NS, "dataEntry"));
public static final Property compound = m_model.createProperty(String.format(_NS, "compound"));
public static final Property feature = m_model.createProperty(String.format(_NS, "feature"));
public static final Property values = m_model.createProperty(String.format(_NS, "values"));
public static final Property hasSource = m_model.createProperty(String.format(_NS, "hasSource"));
public static final Property conformer = m_model.createProperty(String.format(_NS, "conformer"));
public static final Property isA = m_model.createProperty(String.format(_NS, "isA"));
public static final Property model = m_model.createProperty(String.format(_NS, "model"));
public static final Property report = m_model.createProperty(String.format(_NS, "report"));
public static final Property algorithm = m_model.createProperty(String.format(_NS, "algorithm"));
public static final Property dependentVariables = m_model.createProperty(String.format(_NS, "dependentVariables"));
public static final Property independentVariables = m_model.createProperty(String.format(_NS, "independentVariables"));
public static final Property predictedVariables = m_model.createProperty(String.format(_NS, "predictedVariables"));
public static final Property trainingDataset = m_model.createProperty(String.format(_NS, "trainingDataset"));
public static final Property validationReport = m_model.createProperty(String.format(_NS, "validationReport"));
public static final Property validation = m_model.createProperty(String.format(_NS, "validation"));
public static final Property hasValidationInfo = m_model.createProperty(String.format(_NS, "hasValidationInfo"));
public static final Property validationModel = m_model.createProperty(String.format(_NS, "validationModel"));
public static final Property validationPredictionDataset = m_model.createProperty(String.format(_NS, "validationPredictionDataset"));
public static final Property validationTestDataset = m_model.createProperty(String.format(_NS, "validationTestDataset"));
/**
* Data properties
*/
public static final Property value = m_model.createProperty(String.format(_NS, "value"));
public static final Property units = m_model.createProperty(String.format(_NS, "units"));
public static final Property has3Dstructure = m_model.createProperty(String.format(_NS, "has3Dstructure"));
public static final Property hasStatus = m_model.createProperty(String.format(_NS, "hasStatus"));
public static final Property paramScope = m_model.createProperty(String.format(_NS, "paramScope"));
public static final Property paramValue = m_model.createProperty(String.format(_NS, "paramValue"));
public static final Property statisticsSupported = m_model.createProperty(String.format(_NS, "statisticsSupported"));
}
これを手伝ってもらえますか?