@Override public boolean hasNext() { try { return _in.ready(); } catch (final IOException e) { Log.error(_logger, e); return false; } }
@Override public boolean hasNext() { try { return _in.ready(); } catch (final IOException e) { Log.error(_logger, e); return false; } }
@Override public boolean hasNext() { try { return _in.ready(); } catch (final IOException e) { Log.error(_logger, e); return false; } }
public static String getCurrentMethodName_Main(final int depth) { try { final StackTraceElement element = (StackTraceElement) _m.invoke(new Throwable(), depth + 1); return element.getMethodName(); } catch (final Exception e) // 3 exceptions. { Log.error(_logger, e); return ""; } }
public static void error(final String msg, final Throwable t) { Log.error(_logger, t); error(msg); }
private static int getIntProperty(final Properties properties, final String property, final int defaultValue, final Properties defaultValues) { if (null == properties) return defaultValue; defaultValues.setProperty(property, String.valueOf(defaultValue)); final String value = properties.getProperty(property); int intValue = defaultValue; if (value != null) try { intValue = Integer.parseInt(value); } catch (final NumberFormatException e) { Log.error(_logger, "Ignoring invalid int value (" + value + ") for the configuration option " + property, e); } properties.setProperty(property, String.valueOf(intValue)); return intValue; }
private static double getDoubleProperty(final Properties properties, final String property, final double defaultValue, final Properties defaultValues) { if (null == properties) return defaultValue; defaultValues.setProperty(property, String.valueOf(defaultValue)); final String value = properties.getProperty(property); double doubleValue = defaultValue; if (value != null) try { doubleValue = Double.parseDouble(value); } catch (final NumberFormatException e) { Log.error(_logger, "Ignoring invalid double value (" + value + ") for the configuration option " + property, e); } properties.setProperty(property, String.valueOf(doubleValue)); return doubleValue; }
private static double getDoubleProperty(final Properties properties, final String property, final double defaultValue, final Properties defaultValues) { if (null == properties) return defaultValue; defaultValues.setProperty(property, String.valueOf(defaultValue)); final String value = properties.getProperty(property); double doubleValue = defaultValue; if (value != null) try { doubleValue = Double.parseDouble(value); } catch (final NumberFormatException e) { Log.error(_logger, "Ignoring invalid double value (" + value + ") for the configuration option " + property, e); } properties.setProperty(property, String.valueOf(doubleValue)); return doubleValue; }
private static int getIntProperty(final Properties properties, final String property, final int defaultValue, final Properties defaultValues) { if (null == properties) return defaultValue; defaultValues.setProperty(property, String.valueOf(defaultValue)); final String value = properties.getProperty(property); int intValue = defaultValue; if (value != null) try { intValue = Integer.parseInt(value); } catch (final NumberFormatException e) { Log.error(_logger, "Ignoring invalid int value (" + value + ") for the configuration option " + property, e); } properties.setProperty(property, String.valueOf(intValue)); return intValue; }
/** * Closes this writer and its underlaying _stream. */ @Override public void close() { try { flush(); _stream.close(); } catch (final IOException ioex) { _failures = true; Log.error(_logger, ioex); } }
private void sync() { final List<OWLOntologyChange> changes = new ArrayList<>(); if (_delta.exists()) try (final BufferedReader br = new BufferedReader(new FileReader(_delta))) { try (final DeltaReader reader = new DeltaReader(br)) { while (reader.hasNext()) changes.add(reader.next()); } } catch (final Exception e) { Log.error(_logger, e); } }
private void sync() { final List<OWLOntologyChange> changes = new ArrayList<>(); if (_delta.exists()) try (final BufferedReader br = new BufferedReader(new FileReader(_delta))) { try (final DeltaReader reader = new DeltaReader(br)) { while (reader.hasNext()) changes.add(reader.next()); } } catch (final Exception e) { Log.error(_logger, e); } }
private void sync() { final List<OWLOntologyChange> changes = new ArrayList<>(); if (_delta.exists()) try (final BufferedReader br = new BufferedReader(new FileReader(_delta))) { try (final DeltaReader reader = new DeltaReader(br)) { while (reader.hasNext()) changes.add(reader.next()); } } catch (final Exception e) { Log.error(_logger, e); } }
/** * {@inheritDoc} */ @Override public void flush() { try { processChanges(_pendingChanges); } catch (final Exception e) { Log.error(_logger, e); } _pendingChanges.clear(); refreshCheck(); }
/** * {@inheritDoc} */ @Override public void flush() { try { processChanges(_pendingChanges); } catch (final Exception e) { Log.error(_logger, e); } _pendingChanges.clear(); refreshCheck(); }
@Override public OWLReasoner getReasoner() { if (!_reasoner.isPresent()) try { final OWLReasoner reasoner = _reasonerFactory.apply(getOntology()); reasoner.isConsistent(); _reasoner = Optional.of(reasoner); } catch (final Exception e) { Log.error(_logger, e); throw new OpenError(e); } _reasoner.get().flush(); return _reasoner.get(); }
@Override public OWLReasoner getReasoner() { if (!_reasoner.isPresent()) try { final OWLReasoner reasoner = _reasonerFactory.apply(getOntology()); reasoner.isConsistent(); _reasoner = Optional.of(reasoner); } catch (final Exception e) { Log.error(_logger, e); throw new OpenError(e); } _reasoner.get().flush(); return _reasoner.get(); }
@Override public OWLReasoner getReasoner() { if (!_reasoner.isPresent()) try { final OWLReasoner reasoner = _reasonerFactory.apply(getOntology()); reasoner.isConsistent(); _reasoner = Optional.of(reasoner); } catch (final Exception e) { Log.error(_logger, e); throw new OpenError(e); } _reasoner.get().flush(); return _reasoner.get(); }
public void classify() { System.out.println("Classify Timeout: " + Timeouts.CLASSIFY + "ms"); System.out.print("Classifying..."); try { ((PelletInfGraph) model.getGraph()).classify(); System.out.println("finished in " + timers.getTimer("classify").get().getLast() + "ms"); } catch (final TimeoutException e) { Log.error(_logger, e); System.out.println("interrupted after " + timers.getTimer("classify").get().getElapsed() + "ms"); } System.out.println("Classified: " + openllet.isClassified()); System.out.println(); }
public void classify() { System.out.println("Classify Timeout: " + Timeouts.CLASSIFY + "ms"); System.out.print("Classifying..."); try { ((PelletInfGraph) model.getGraph()).classify(); System.out.println("finished in " + timers.getTimer("classify").get().getLast() + "ms"); } catch (final TimeoutException e) { Log.error(_logger, e); System.out.println("interrupted after " + timers.getTimer("classify").get().getElapsed() + "ms"); } System.out.println("Classified: " + openllet.isClassified()); System.out.println(); }