private void init() {
this.transform_ = this.createJSTransform();
this.mouseWentDown()
.addListener("function(o, e){var o=" + this.getSObjJsRef() + ";if(o){o.mouseDown(o, e);}}");
this.mouseWentUp()
.addListener("function(o, e){var o=" + this.getSObjJsRef() + ";if(o){o.mouseUp(o, e);}}");
this.mouseDragged()
.addListener("function(o, e){var o=" + this.getSObjJsRef() + ";if(o){o.mouseDrag(o, e);}}");
this.mouseMoved()
.addListener(
"function(o, e){var o=" + this.getSObjJsRef() + ";if(o){o.mouseMoved(o, e);}}");
this.touchStarted()
.addListener(
"function(o, e){var o=" + this.getSObjJsRef() + ";if(o){o.touchStarted(o, e);}}");
this.touchEnded()
.addListener(
"function(o, e){var o=" + this.getSObjJsRef() + ";if(o){o.touchEnded(o, e);}}");
this.touchMoved()
.addListener(
"function(o, e){var o=" + this.getSObjJsRef() + ";if(o){o.touchMoved(o, e);}}");
this.setSelectionAreaPadding(0, EnumSet.of(Side.Top));
this.setSelectionAreaPadding(20, EnumSet.of(Side.Left, Side.Right));
this.setSelectionAreaPadding(30, EnumSet.of(Side.Bottom));
if (this.chart_ != null) {
this.chart_.addAxisSliderWidget(this);
}
}
/**
* Setter for the property 'connectionTracingEvents'. This method is called by the container
*
* @param tracingSpec A comma delimited list of {@link HzConnectionEvent}
*/
public void setConnectionTracingEvents(String tracingSpec) {
if ((null != tracingSpec) && (0 < tracingSpec.length())) {
List<HzConnectionEvent> traceEvents = new ArrayList<HzConnectionEvent>();
for (String traceEventId : tracingSpec.split(",")) {
traceEventId = traceEventId.trim();
try {
HzConnectionEvent traceEvent = HzConnectionEvent.valueOf(traceEventId);
if (null != traceEvent) {
traceEvents.add(traceEvent);
}
} catch (IllegalArgumentException iae) {
log(
Level.WARNING,
"Ignoring illegal token \""
+ traceEventId
+ "\" from connection config-property "
+ "connectionTracingEvents, valid tokens are "
+ EnumSet.allOf(HzConnectionEvent.class));
}
}
this.hzConnectionTracingEvents = EnumSet.copyOf(traceEvents);
} else {
this.hzConnectionTracingEvents = emptySet();
}
}
/** {@inheritDoc} */
@Override
public void onToggleSplitterClicked(boolean isShowSplitter) {
terminalTab.setScopes(isShowSplitter ? EnumSet.allOf(State.class) : EnumSet.of(RUNNERS));
if (isShowSplitter) {
panelState.setSplitterState(SPLITTER_ON);
view.setLeftPropertiesPanel(leftPropertiesContainer);
view.setRightPropertiesPanel(rightPropertiesContainer);
} else {
panelState.setSplitterState(SPLITTER_OFF);
view.setGeneralPropertiesPanel(rightPropertiesContainer);
}
if (TEMPLATE.equals(state)) {
panelState.setState(TEMPLATE);
leftTabContainer.showTab(locale.runnerTabTemplates());
if (SPLITTER_OFF.equals(panelState.getSplitterState())) {
rightPropertiesContainer.showTab(propertiesTab.getTitle());
}
}
}
public void testRequiredDeviceCharacteristic() {
final AndroidVersion minSdkVersion = new AndroidVersion(8, null);
final MockPlatformTarget projectTarget = new MockPlatformTarget(14, 0);
EnumSet<IDevice.HardwareFeature> requiredFeatures = EnumSet.of(IDevice.HardwareFeature.WATCH);
// cannot run if the device doesn't have a required feature
LaunchCompatibility compatibility =
LaunchCompatibility.canRunOnDevice(
minSdkVersion, projectTarget, requiredFeatures, createMockDevice(8, null, false), null);
assertEquals(new LaunchCompatibility(ThreeState.NO, "missing feature: WATCH"), compatibility);
// can run if the device has the required features
compatibility =
LaunchCompatibility.canRunOnDevice(
minSdkVersion, projectTarget, requiredFeatures, createMockDevice(8, null, true), null);
assertEquals(new LaunchCompatibility(ThreeState.YES, null), compatibility);
// cannot run apk's that don't specify uses-feature watch on a wear device
requiredFeatures = EnumSet.noneOf(IDevice.HardwareFeature.class);
compatibility =
LaunchCompatibility.canRunOnDevice(
minSdkVersion, projectTarget, requiredFeatures, createMockDevice(8, null, true), null);
assertEquals(
new LaunchCompatibility(
ThreeState.NO,
"missing uses-feature watch, non-watch apks cannot be launched on a watch"),
compatibility);
}
@SuppressWarnings("javadoc")
@RunWith(Parameterized.class)
public class CeusSoftRock extends GmmTest {
private static String GMM_INPUTS = "CEUS_vs760_inputs.csv";
private static String GMM_RESULTS = "CEUS_vs760_results.csv";
static {
try {
inputsList = loadInputs(GMM_INPUTS);
} catch (IOException ioe) {
ioe.printStackTrace();
System.exit(1);
}
}
@Parameters(name = "{index}: {0} {2} {1}")
public static Collection<Object[]> data() throws IOException {
return loadResults(GMM_RESULTS);
}
public CeusSoftRock(int index, Gmm gmm, Imt imt, double exMedian, double exSigma) {
super(index, gmm, imt, exMedian, exSigma);
}
/* Result generation sets */
private static Set<Gmm> gmms = EnumSet.range(AB_06_PRIME, TORO_97_MB);
private static Set<Imt> imts = EnumSet.of(PGA, SA0P2, SA1P0, SA2P0);
public static void main(String[] args) throws IOException {
GmmTest.generateResults(gmms, imts, GMM_INPUTS, GMM_RESULTS);
}
}
/** {@inheritDoc} */
@Override
public boolean traverse(final EnumSet<TraversalOption> options) {
final Tile next = getNext();
if (next == null) {
return false;
}
if (next.equals(getEnd())) {
if (Calculations.distanceTo(next) <= 1
|| end && (!Players.getLocal().isMoving() || Calculations.distanceTo(next) < 3)) {
return false;
}
end = true;
} else {
end = false;
}
if (options != null
&& options.contains(TraversalOption.HANDLE_RUN)
&& !Walking.isRunEnabled()
&& Walking.getEnergy() > 50) {
Walking.setRun(true);
Task.sleep(300);
}
if (options != null && options.contains(TraversalOption.SPACE_ACTIONS)) {
final Tile dest = Walking.getDestination();
if (dest != null
&& Players.getLocal().isMoving()
&& Calculations.distanceTo(dest) > 5
&& Calculations.distanceBetween(next, dest) < 7) {
return true;
}
}
return Walking.walkTileMM(next, 0, 0);
}
public static void startServer(Class<? extends Filter> filter) throws Exception {
_tester = new ServletTester("/ctx");
HttpURI uri = new HttpURI(_tester.createConnector(true));
_host = uri.getHost();
_port = uri.getPort();
_tester.getContext().addServlet(TestServlet.class, "/*");
_dosFilter =
_tester.getContext().addFilter(filter, "/dos/*", EnumSet.allOf(DispatcherType.class));
_dosFilter.setInitParameter("maxRequestsPerSec", "4");
_dosFilter.setInitParameter("delayMs", "200");
_dosFilter.setInitParameter("throttledRequests", "1");
_dosFilter.setInitParameter("waitMs", "10");
_dosFilter.setInitParameter("throttleMs", "4000");
_dosFilter.setInitParameter("remotePort", "false");
_dosFilter.setInitParameter("insertHeaders", "true");
_timeoutFilter =
_tester.getContext().addFilter(filter, "/timeout/*", EnumSet.allOf(DispatcherType.class));
_timeoutFilter.setInitParameter("maxRequestsPerSec", "4");
_timeoutFilter.setInitParameter("delayMs", "200");
_timeoutFilter.setInitParameter("throttledRequests", "1");
_timeoutFilter.setInitParameter("waitMs", "10");
_timeoutFilter.setInitParameter("throttleMs", "4000");
_timeoutFilter.setInitParameter("remotePort", "false");
_timeoutFilter.setInitParameter("insertHeaders", "true");
_timeoutFilter.setInitParameter("maxRequestMs", _requestMaxTime + "");
_tester.start();
}
public PnfsCreateEntryMessage(String path, int uid, int gid, int mode, Set<FileAttribute> attr) {
super(
path,
EnumSet.copyOf(
Sets.union(
attr,
EnumSet.of(
OWNER,
OWNER_GROUP,
MODE,
TYPE,
SIZE,
CREATION_TIME,
ACCESS_TIME,
MODIFICATION_TIME,
CHANGE_TIME,
PNFSID,
STORAGEINFO,
ACCESS_LATENCY,
RETENTION_POLICY))));
_path = path;
_uid = uid;
_gid = gid;
_mode = mode;
}
/**
* Create a new NotificationChannel.
*
* @param channelName name of the channel
* @param channel text area for showing the event log
* @param blackList if <code>true</code>, the channel will default to showing everything that has
* not been explicitly blacklisted. Otherwise it'll show only whitelisted content. The main
* channel should default to blacklisting, as it should show types that have been added in new
* game versions
* @param defaultTypes default value of the saved notification type list (white- or blacklist
* depending on the value of <code>showUnknown</code>)
*/
NotificationChannel(
String channelName, KTextEdit channel, boolean blackList, String defaultTypes) {
name = channelName;
this.channel = channel;
if (blackList) {
eventTypes = EnumSet.allOf(NotificationType.class);
} else {
eventTypes = EnumSet.noneOf(NotificationType.class);
}
// Load
WtWindowManager wm = WtWindowManager.getInstance();
String value = wm.getProperty("ui.channel." + name, defaultTypes);
for (String typeString : value.split(",")) {
/*
* String.split is unfortunately unable to return empty arrays when
* applied on empty string. Work around it.
*/
if ("".equals(typeString)) {
continue;
}
try {
NotificationType type = NotificationType.valueOf(typeString);
setTypeFiltering(type, !blackList);
} catch (RuntimeException e) {
logger.error("Unrecognized notification type '" + typeString + "'", e);
}
}
}
private void emitURIs() throws IOException {
writer.emitEmptyLine();
for (Table table : mModel.getTables()) {
writer.emitField(
"Uri",
SqlUtil.URI(table),
EnumSet.of(Modifier.PUBLIC, Modifier.STATIC, Modifier.FINAL),
"Uri.parse(\"content://"
+ mModel.getContentAuthority()
+ "/"
+ table.name.toLowerCase()
+ "\")");
}
for (View view : mModel.getViews()) {
writer.emitField(
"Uri",
SqlUtil.URI(view),
EnumSet.of(Modifier.PUBLIC, Modifier.STATIC, Modifier.FINAL),
"Uri.parse(\"content://"
+ mModel.getContentAuthority()
+ "/"
+ view.name.toLowerCase()
+ "\")");
}
writer.emitEmptyLine();
}
private boolean filterCard(AbstractCard abstractCard) {
if (filterString != null && filterString.length() != 0) {
if (!searchCardText(abstractCard, filterString)) {
return false;
}
}
if (cardTypes.size() != NUMBEROFCARDTYPES) {
if (!match(abstractCard.cardType, cardTypes)) return false;
}
if (colors.size() != NUMBEROFCOLORS) {
if (!match(abstractCard.colorFlags, colors)
&& (abstractCard.resourceThresholdGranted == null
? true
: !match(abstractCard.resourceThresholdGranted[0].colorFlags, colors))) return false;
}
if (abstractCard instanceof Card) {
Card card;
card = (Card) abstractCard;
if (card.resourceCost > maxCost || card.resourceCost < minCost) {
return false;
}
if (!attributes.isEmpty()) {
for (Attribute att : attributes) {
if (!Arrays.asList(card.attributeFlags).contains(att)) {
return false;
}
}
}
}
return true;
}
public DecodeThread(ZXingCaptureActivity activity, int decodeMode) {
this.activity = activity;
handlerInitLatch = new CountDownLatch(1);
hints = new EnumMap<DecodeHintType, Object>(DecodeHintType.class);
Collection<BarcodeFormat> decodeFormats = new ArrayList<BarcodeFormat>();
decodeFormats.addAll(EnumSet.of(BarcodeFormat.AZTEC));
decodeFormats.addAll(EnumSet.of(BarcodeFormat.PDF_417));
switch (decodeMode) {
case BARCODE_MODE:
decodeFormats.addAll(DecodeFormatManager.getBarCodeFormats());
break;
case QRCODE_MODE:
decodeFormats.addAll(DecodeFormatManager.getQrCodeFormats());
break;
case ALL_MODE:
decodeFormats.addAll(DecodeFormatManager.getBarCodeFormats());
decodeFormats.addAll(DecodeFormatManager.getQrCodeFormats());
break;
default:
break;
}
hints.put(DecodeHintType.POSSIBLE_FORMATS, decodeFormats);
}
public IntervalsForAggregatorHelper() {
this.defaultAggregatedIntervalConfig =
eventAggregationManagementDao.getDefaultAggregatedIntervalConfig();
// Create the set of intervals that are actually being aggregated
final Set<AggregationInterval> handledIntervalsNotIncluded =
EnumSet.allOf(AggregationInterval.class);
final Set<AggregationInterval> handledIntervalsBuilder =
EnumSet.noneOf(AggregationInterval.class);
for (final IntervalAwarePortalEventAggregator<PortalEvent> portalEventAggregator :
intervalAwarePortalEventAggregators) {
final Class<? extends IPortalEventAggregator<?>> aggregatorType =
PortalRawEventsAggregatorImpl.this.getClass(portalEventAggregator);
// Get aggregator specific interval info config
final AggregatedIntervalConfig aggregatorIntervalConfig =
this.getAggregatorIntervalConfig(aggregatorType);
for (final Iterator<AggregationInterval> intervalsIterator =
handledIntervalsNotIncluded.iterator();
intervalsIterator.hasNext(); ) {
final AggregationInterval interval = intervalsIterator.next();
if (aggregatorIntervalConfig.isIncluded(interval)) {
handledIntervalsBuilder.add(interval);
intervalsIterator.remove();
}
}
}
handledIntervals = Sets.immutableEnumSet(handledIntervalsBuilder);
}
public boolean updateNewsStates(Collection<StatesUpdateInfo> statesUpdateInfos) {
boolean changed = false;
for (StatesUpdateInfo info : statesUpdateInfos) {
long newsId = info.getNewsReference().getId();
if (info.getOldState() == null) {
boolean itemRemoved = fNewsIds[INews.State.NEW.ordinal()].removeByElement(newsId);
if (!itemRemoved) {
EnumSet<State> remainingStates = EnumSet.allOf(INews.State.class);
remainingStates.remove(INews.State.NEW);
remainingStates.remove(info.getNewState());
for (INews.State state : remainingStates) {
if (fNewsIds[state.ordinal()].removeByElement(newsId)) itemRemoved = true;
}
}
if (itemRemoved) {
changed = true;
fNewsIds[info.getNewState().ordinal()].add(newsId);
}
} else if (fNewsIds[info.getOldState().ordinal()].removeByElement(newsId)) {
changed = true;
fNewsIds[info.getNewState().ordinal()].add(newsId);
}
}
return changed;
}
/**
* Validates expected {@link org.terracotta.statistics.OperationStatistic} updates for the
* indicated {@code Ehcache} instance. The statistics identified in {@code changed} are checked
* for a value of {@code 1}; all other statistics in the same enumeration class are checked for a
* value of {@code 0}.
*
* @param ehcache the {@code Ehcache} instance to check
* @param changed the statistics values that should have updated values
* @param <E> the statistics enumeration type
*/
protected static <E extends Enum<E>> void validateStats(
final Ehcache<?, ?> ehcache, final EnumSet<E> changed) {
assert changed != null;
final EnumSet<E> unchanged = EnumSet.complementOf(changed);
@SuppressWarnings("unchecked")
final List<EnumSet<E>> sets = Arrays.asList(changed, unchanged);
Class<E> statsClass = null;
for (final EnumSet<E> set : sets) {
if (!set.isEmpty()) {
statsClass = set.iterator().next().getDeclaringClass();
break;
}
}
assert statsClass != null;
final OperationStatistic<E> operationStatistic = getOperationStatistic(ehcache, statsClass);
for (final E statId : changed) {
assertThat(
String.format("Value for %s.%s", statId.getDeclaringClass().getName(), statId.name()),
getStatistic(operationStatistic, statId),
StatisticMatcher.equalTo(1L));
}
for (final E statId : unchanged) {
assertThat(
String.format("Value for %s.%s", statId.getDeclaringClass().getName(), statId.name()),
getStatistic(operationStatistic, statId),
StatisticMatcher.equalTo(0L));
}
}
@Test(expected = XenonException.class)
public void test3() throws XenonException {
ImmutableArray<String> schemes = new ImmutableArray<>("SCHEME1", "SCHEME2");
ImmutableArray<String> locations = new ImmutableArray<>("L1", "L2");
ImmutableArray<XenonPropertyDescription> supportedProperties =
new ImmutableArray<XenonPropertyDescription>(
new XenonPropertyDescriptionImplementation(
"xenon.adaptors.test.p1",
Type.STRING,
EnumSet.of(Component.XENON),
"aap2",
"test property p1"),
new XenonPropertyDescriptionImplementation(
"xenon.adaptors.test.p2",
Type.STRING,
EnumSet.of(Component.XENON),
"noot2",
"test property p2"));
Map<String, String> p = new HashMap<>(2);
p.put("xenon.adaptors.test.p3", "mies");
XenonProperties prop = new XenonProperties(supportedProperties, p);
new TestAdaptor(null, "test", "DESCRIPTION", schemes, locations, supportedProperties, prop);
}
private static TimelineEntity maskFields(TimelineEntity entity, EnumSet<Field> fields) {
// Conceal the fields that are not going to be exposed
TimelineEntity entityToReturn = new TimelineEntity();
entityToReturn.setEntityId(entity.getEntityId());
entityToReturn.setEntityType(entity.getEntityType());
entityToReturn.setStartTime(entity.getStartTime());
// Deep copy
if (fields.contains(Field.EVENTS)) {
entityToReturn.addEvents(entity.getEvents());
} else if (fields.contains(Field.LAST_EVENT_ONLY)) {
entityToReturn.addEvent(entity.getEvents().get(0));
} else {
entityToReturn.setEvents(null);
}
if (fields.contains(Field.RELATED_ENTITIES)) {
entityToReturn.addRelatedEntities(entity.getRelatedEntities());
} else {
entityToReturn.setRelatedEntities(null);
}
if (fields.contains(Field.PRIMARY_FILTERS)) {
entityToReturn.addPrimaryFilters(entity.getPrimaryFilters());
} else {
entityToReturn.setPrimaryFilters(null);
}
if (fields.contains(Field.OTHER_INFO)) {
entityToReturn.addOtherInfo(entity.getOtherInfo());
} else {
entityToReturn.setOtherInfo(null);
}
return entityToReturn;
}
public static Pair<StringContentPayload, Boolean> runVeraPDF(
Path input, String profile, boolean hasFeatures)
throws VeraPDFException, IOException, JAXBException {
PdfBoxFoundryProvider.initialise();
PDFAFlavour flavour = PDFAFlavour.byFlavourId(profile);
ValidatorConfig validatorConfig = ValidatorFactory.createConfig(flavour, true, 10);
FeatureExtractorConfig featureConfig = FeatureFactory.defaultConfig();
MetadataFixerConfig fixerConfig = FixerFactory.defaultConfig();
EnumSet<TaskType> tasks = EnumSet.of(TaskType.VALIDATE);
if (hasFeatures) {
tasks.add(TaskType.EXTRACT_FEATURES);
}
ItemProcessor processor =
ProcessorFactory.createProcessor(
ProcessorFactory.fromValues(validatorConfig, featureConfig, fixerConfig, tasks));
ProcessorResult result = processor.process(input.toFile());
ByteArrayOutputStream os = new ByteArrayOutputStream();
boolean prettyPrint = true;
ProcessorFactory.resultToXml(result, os, prettyPrint);
IOUtils.closeQuietly(os);
StringContentPayload s = new StringContentPayload(os.toString(RodaConstants.DEFAULT_ENCODING));
return Pair.create(s, result.getValidationResult().isCompliant());
}
/**
* Returns the role that has the specified name.
*
* @throws RoleNotFoundException when the role could not be found
*/
public Role getRole(String roleName) throws IOException {
Assert.hasLength(roleName);
ILockedRepository repo = null;
try {
repo = globalRepositoryManager.getProjectCentralRepository(REPOSITORY_NAME, false);
String json = BlobUtils.getHeadContent(repo.r(), roleName + ROLE_SUFFIX);
if (json == null) {
throw new RoleNotFoundException(roleName);
}
Gson gson = new GsonBuilder().enableComplexMapKeySerialization().create();
Map<String, Object> roleMap =
gson.fromJson(json, new TypeToken<Map<String, Object>>() {}.getType());
@SuppressWarnings("unchecked")
Collection<String> permissions =
(Collection<String>) roleMap.get("permissions"); // $NON-NLS-1$
EnumSet<Permission> rolePermissions = EnumSet.noneOf(Permission.class);
for (String permission : permissions) {
rolePermissions.add(Permission.valueOf(permission));
}
Role role = new Role(roleName, rolePermissions);
return role;
} finally {
Util.closeQuietly(repo);
}
}
/**
* Returns all required stores for this DAO by computing dependencies of every dependencies.
*
* @return A set of every required stores to create a new transaction.
*/
public Set<S> getRequiredStores() {
final HashSet<BaseAsyncDAO<S>> dependencies = new HashSet<BaseAsyncDAO<S>>();
dependencies.add(this);
int previousSize = 0;
int size = dependencies.size();
// Expands dependencies by adding their dependencies until no new dependency is added.
while (previousSize != size) {
previousSize = size;
final HashSet<BaseAsyncDAO<S>> entries = new HashSet<BaseAsyncDAO<S>>(dependencies);
for (final BaseAsyncDAO<S> entry : entries) {
dependencies.addAll(entry.getDependencies());
}
size = dependencies.size();
}
final EnumSet<S> requiredStores = EnumSet.noneOf(getSchema());
for (final BaseAsyncDAO<S> dependency : dependencies) {
requiredStores.add(dependency.getRequiredStore());
}
return requiredStores;
}
private ArchiveApplicationEntity createAdminAE(
String aet,
String[] image_tsuids,
String[] video_tsuids,
String[] other_tsuids,
String pixConsumer,
String pixManager) {
ArchiveApplicationEntity ae = new ArchiveApplicationEntity(aet);
ae.setAssociationAcceptor(true);
ae.setAssociationInitiator(true);
ae.setMatchUnknown(true);
ae.setSendPendingCGet(true);
ae.setSendPendingCMoveInterval(PENDING_CMOVE_INTERVAL);
ae.addRejectionNote(INCORRECT_WORKLIST_ENTRY_SELECTED);
ae.addRejectionNote(REJECT_FOR_PATIENT_SAFETY_REASONS);
ae.addRejectionNote(INCORRECT_MODALITY_WORKLIST_ENTRY);
ae.addRejectionNote(DATA_RETENTION_PERIOD_EXPIRED);
addTCs(ae, null, SCU, IMAGE_CUIDS, image_tsuids);
addTCs(ae, null, SCU, VIDEO_CUIDS, video_tsuids);
addTCs(ae, null, SCU, OTHER_CUIDS, other_tsuids);
addTCs(ae, EnumSet.allOf(QueryOption.class), SCP, QUERY_CUIDS, UID.ImplicitVRLittleEndian);
addTCs(ae, EnumSet.of(QueryOption.RELATIONAL), SCP, RETRIEVE_CUIDS, UID.ImplicitVRLittleEndian);
addTC(
ae, null, SCP, UID.CompositeInstanceRetrieveWithoutBulkDataGET, UID.ImplicitVRLittleEndian);
addTC(ae, null, SCP, UID.VerificationSOPClass, UID.ImplicitVRLittleEndian);
addTC(ae, null, SCU, UID.VerificationSOPClass, UID.ImplicitVRLittleEndian);
ae.setReturnOtherPatientIDs(true);
ae.setReturnOtherPatientNames(true);
ae.setLocalPIXConsumerApplication(pixConsumer);
ae.setRemotePIXManagerApplication(pixManager);
return ae;
}
private static void finalize(
Configuration conf, JobConf jobconf, final Path destPath, String presevedAttributes)
throws IOException {
if (presevedAttributes == null) {
return;
}
EnumSet<FileAttribute> preseved = FileAttribute.parse(presevedAttributes);
if (!preseved.contains(FileAttribute.USER)
&& !preseved.contains(FileAttribute.GROUP)
&& !preseved.contains(FileAttribute.PERMISSION)) {
return;
}
FileSystem dstfs = destPath.getFileSystem(conf);
Path dstdirlist = new Path(jobconf.get(DST_DIR_LIST_LABEL));
SequenceFile.Reader in = null;
try {
in = new SequenceFile.Reader(dstdirlist.getFileSystem(jobconf), dstdirlist, jobconf);
Text dsttext = new Text();
FilePair pair = new FilePair();
for (; in.next(dsttext, pair); ) {
Path absdst = new Path(destPath, pair.output);
updatePermissions(pair.input, dstfs.getFileStatus(absdst), preseved, dstfs);
}
} finally {
checkAndClose(in);
}
}
@Override
public void readFrom(StreamInput in) throws IOException {
super.readFrom(in);
if (in.getVersion().before(Version.V_1_4_0)) {
// term vector used to read & write the index twice, here and in the parent class
in.readString();
}
type = in.readString();
id = in.readString();
if (in.getVersion().onOrAfter(Version.V_1_4_0)) {
if (in.readBoolean()) {
doc = in.readBytesReference();
}
}
routing = in.readOptionalString();
preference = in.readOptionalString();
long flags = in.readVLong();
flagsEnum.clear();
for (Flag flag : Flag.values()) {
if ((flags & (1 << flag.ordinal())) != 0) {
flagsEnum.add(flag);
}
}
int numSelectedFields = in.readVInt();
if (numSelectedFields > 0) {
selectedFields = new HashSet<>();
for (int i = 0; i < numSelectedFields; i++) {
selectedFields.add(in.readString());
}
}
}
public void testEnhanceDefer() throws IOException {
NetcdfDataset ncd =
NetcdfDataset.openDataset(
filename, EnumSet.of(NetcdfDataset.Enhance.ScaleMissing), -1, null, null);
VariableDS enhancedVar = (VariableDS) ncd.findVariable("t1");
NetcdfDataset ncdefer =
NetcdfDataset.openDataset(
filename, EnumSet.of(NetcdfDataset.Enhance.ScaleMissingDefer), -1, null, null);
VariableDS deferVar = (VariableDS) ncdefer.findVariable("t1");
Array data = enhancedVar.read();
Array dataDefer = deferVar.read();
System.out.printf("Enhanced=");
NCdumpW.printArray(data);
System.out.printf("%nDeferred=");
NCdumpW.printArray(dataDefer);
System.out.printf("%nProcessed=");
CompareNetcdf2 nc = new CompareNetcdf2(new Formatter(System.out), false, false, true);
assert !nc.compareData(enhancedVar.getShortName(), data, dataDefer, false);
IndexIterator ii = dataDefer.getIndexIterator();
while (ii.hasNext()) {
double val = deferVar.convertScaleOffsetMissing(ii.getDoubleNext());
ii.setDoubleCurrent(val);
}
NCdumpW.printArray(dataDefer);
assert nc.compareData(enhancedVar.getShortName(), data, dataDefer, false);
ncd.close();
ncdefer.close();
}
private EnumSet<ExecutableType> commonExecutableTypeChecks(
ValidateOnExecution validateOnExecutionAnnotation) {
if (validateOnExecutionAnnotation == null) {
return EnumSet.noneOf(ExecutableType.class);
}
EnumSet<ExecutableType> executableTypes = EnumSet.noneOf(ExecutableType.class);
if (validateOnExecutionAnnotation.type().length == 0) { // HV-757
executableTypes.add(ExecutableType.NONE);
} else {
Collections.addAll(executableTypes, validateOnExecutionAnnotation.type());
}
// IMPLICIT cannot be mixed 10.1.2 of spec - Mixing IMPLICIT and other executable types is
// illegal
if (executableTypes.contains(ExecutableType.IMPLICIT) && executableTypes.size() > 1) {
throw log.getMixingImplicitWithOtherExecutableTypesException();
}
// NONE can be removed 10.1.2 of spec - A list containing NONE and other types of executables is
// equivalent to a
// list containing the types of executables without NONE.
if (executableTypes.contains(ExecutableType.NONE) && executableTypes.size() > 1) {
executableTypes.remove(ExecutableType.NONE);
}
// 10.1.2 of spec - A list containing ALL and other types of executables is equivalent to a list
// containing only ALL
if (executableTypes.contains(ExecutableType.ALL)) {
executableTypes = ALL_EXECUTABLE_TYPES;
}
return executableTypes;
}
public void testHtmlDocumentWithRandomFields() throws Exception {
// date is not present in the html doc
ArrayList<AttachmentProcessor.Field> fieldsList =
new ArrayList<>(EnumSet.complementOf(EnumSet.of(AttachmentProcessor.Field.DATE)));
Set<AttachmentProcessor.Field> selectedFields = new HashSet<>();
int numFields = randomIntBetween(1, fieldsList.size());
String[] selectedFieldNames = new String[numFields];
for (int i = 0; i < numFields; i++) {
AttachmentProcessor.Field field;
do {
field = randomFrom(fieldsList);
} while (selectedFields.add(field) == false);
selectedFieldNames[i] = field.toLowerCase();
}
if (randomBoolean()) {
selectedFields.add(AttachmentProcessor.Field.DATE);
}
processor =
new AttachmentProcessor(
randomAsciiOfLength(10), "source_field", "target_field", selectedFields, 10000);
Map<String, Object> attachmentData = parseDocument("htmlWithEmptyDateMeta.html", processor);
assertThat(attachmentData.keySet(), hasSize(selectedFieldNames.length));
assertThat(attachmentData.keySet(), containsInAnyOrder(selectedFieldNames));
}
protected JMenuBar createMenuBar() {
JMenuBar bar = new JMenuBar();
JMenu homeMenu = new JMenu("Homing");
bar.add(homeMenu);
// adding the appropriate homing options for your endstop configuration
for (AxisId axis : AxisId.values()) {
Endstops endstops = machine.getDriver().getMachine().getEndstops(axis);
if (endstops != null) {
if (endstops.hasMin == true)
homeMenu.add(
makeHomeItem("Home " + axis.name() + " to minimum", EnumSet.of(axis), false));
if (endstops.hasMax == true)
homeMenu.add(makeHomeItem("Home " + axis.name() + " to maximum", EnumSet.of(axis), true));
}
}
/*
homeMenu.add(new JSeparator());
homeMenu.add(makeHomeItem("Home XY+",EnumSet.of(Axis.X,Axis.Y),true));
homeMenu.add(makeHomeItem("Home XY-",EnumSet.of(Axis.X,Axis.Y),false));
homeMenu.add(makeHomeItem("Home all+",EnumSet.allOf(Axis.class),true));
homeMenu.add(makeHomeItem("Home all-",EnumSet.allOf(Axis.class),false));
*/
return bar;
}
public ActMood mostSpecificGeneralization(CD that) {
if (this == that || this.equals(that)) return this;
if (!(that instanceof ActMood))
throw new UnsupportedOperationException("cannot handle argument of class " + that.getClass());
final ActMood thatActMood = (ActMood) that;
// First build the intersection of the implied concepts
// the remainder is a single path of which we have to
// find the most specific concept, i.e., the one who
// has all others as parents, i.e., the one with the
// largest set of implied concepts.
EnumSet<ActMood> intersection = EnumSet.copyOf(getImpliedConcepts());
intersection.removeAll(EnumSet.complementOf(thatActMood.getImpliedConcepts()));
intersection.remove(root);
// XXX: this iterative search is likely to be least optimal because
// we probably have to search the path from the root here.
// I don't know of any better way to do it right now though.
ActMood mostSpecificKnownGeneralization = root;
int maxKnownSpecificity = 1;
for (ActMood candidate : intersection) {
int specificity = candidate.getImpliedConcepts().size();
if (specificity > maxKnownSpecificity) {
maxKnownSpecificity = specificity;
mostSpecificKnownGeneralization = candidate;
}
}
return mostSpecificKnownGeneralization;
}
private static void checkRegionFile(
File world,
File region,
RegionFile regionFile,
DefaultErrorHandler results,
CheckParameters params) {
for (int i = 0; i < 1024; i++) {
ChunkOffset offset = new ChunkOffset(i);
Chunk chunk = new Chunk(world, region, offset, regionFile.getX(), regionFile.getZ());
switch (regionFile.getChunkStatus(offset)) {
case NOT_PRESENT:
break;
case INVALID:
results.corruptChunk(
chunk, "Region file header had corrupt chunk offset", EnumSet.of(NONE), NONE);
break;
case OK:
try {
checkChunk(chunk, regionFile.readChunk(offset), results, params);
} catch (IOException ex) {
results.corruptChunk(chunk, ex.getMessage(), EnumSet.of(NONE), NONE);
}
break;
}
}
}
private Operator intersectXYintersectZ(
int x, int y, IntersectOption xyOutput, int z, IntersectOption xyzOutput, boolean skip) {
Ordering xOrdering = new Ordering();
xOrdering.append(field(tXIndexRowType, 1), true);
Ordering yOrdering = new Ordering();
yOrdering.append(field(tYIndexRowType, 1), true);
Ordering zOrdering = new Ordering();
zOrdering.append(field(tZIndexRowType, 1), true);
IntersectOption scanType = skip ? IntersectOption.SKIP_SCAN : IntersectOption.SEQUENTIAL_SCAN;
return intersect_Ordered(
intersect_Ordered(
indexScan_Default(tXIndexRowType, xEq(x), xOrdering),
indexScan_Default(tYIndexRowType, yEq(y), yOrdering),
tXIndexRowType,
tYIndexRowType,
1,
1,
ascending(true),
JoinType.INNER_JOIN,
EnumSet.of(scanType, xyOutput),
null,
true),
indexScan_Default(tZIndexRowType, zEq(z), zOrdering),
xyOutput == LEFT ? tXIndexRowType : tYIndexRowType,
tZIndexRowType,
1,
1,
ascending(true),
JoinType.INNER_JOIN,
EnumSet.of(scanType, xyzOutput),
null,
true);
}