/** * Convert primitive set into a plain old java {@link Set}, boxing each long. * * @param set {@link PrimitiveLongSet} set of primitive values. * @return a {@link Set} containing all items. */ public static Set<Long> toSet( PrimitiveLongSet set ) { return toSet( set.iterator() ); }
public static PrimitiveLongSet asSet( PrimitiveLongSet set ) { PrimitiveLongSet result = Primitive.longSet( set.size() ); PrimitiveLongIterator iterator = set.iterator(); while ( iterator.hasNext() ) { result.add( iterator.next() ); } return result; }
PrimitiveLongIterator iterator = set.iterator(); Set<Long> iterated = new HashSet<>(); for ( int i = 0; i < threshold / 2; i++ )
PrimitiveLongIterator it = allNodes.iterator(); while (it.hasNext()) { try { long n = it.next(); List<CCVar> result = new LinkedList<CCVar>(); PrimitiveLongIterator reachableIDs = go(db.getNodeById(n), Direction.BOTH,result).iterator(); while (reachableIDs.hasNext()) { long id = (long) reachableIDs.next(); break; it = allNodes.iterator();
/** * Convert primitive set into a plain old java {@link Set}, boxing each long. * * @param set {@link PrimitiveLongSet} set of primitive values. * @return a {@link Set} containing all items. */ public static Set<Long> toSet( PrimitiveLongSet set ) { return toSet( set.iterator() ); }
/** * Convert primitive set into a plain old java {@link Set}, boxing each long. * * @param set {@link PrimitiveLongSet} set of primitive values. * @return a {@link Set} containing all items. */ public static Set<Long> toSet( PrimitiveLongSet set ) { return toSet( set.iterator() ); }
public static PrimitiveLongSet asSet( PrimitiveLongSet set ) { PrimitiveLongSet result = Primitive.longSet( set.size() ); PrimitiveLongIterator iterator = set.iterator(); while ( iterator.hasNext() ) { result.add( iterator.next() ); } return result; }
public static PrimitiveLongSet asSet( PrimitiveLongSet set ) { PrimitiveLongSet result = Primitive.longSet( set.size() ); PrimitiveLongIterator iterator = set.iterator(); while ( iterator.hasNext() ) { result.add( iterator.next() ); } return result; }
private void marshalIndexIds( WritableChannel buffer, PrimitiveLongSet indexIds ) throws IOException { buffer.putInt( indexIds.size() ); PrimitiveLongIterator itr = indexIds.iterator(); while ( itr.hasNext() ) { long indexId = itr.next(); buffer.putLong( indexId ); } }
private void copyIndexSnapshotIndividually( PrepareStoreCopyResponse prepareStoreCopyResponse, StoreId expectedStoreId, CatchupAddressProvider addressProvider, StoreFileStreamProvider storeFileStream, Supplier<TerminationCondition> terminationConditions ) throws StoreCopyFailedException { StoreCopyClientMonitor storeCopyClientMonitor = monitors.newMonitor( StoreCopyClientMonitor.class ); long lastTransactionId = prepareStoreCopyResponse.lastTransactionId(); PrimitiveLongIterator indexIds = prepareStoreCopyResponse.getIndexIds().iterator(); storeCopyClientMonitor.startReceivingIndexSnapshots(); while ( indexIds.hasNext() ) { long indexId = indexIds.next(); storeCopyClientMonitor.startReceivingIndexSnapshot( indexId ); persistentCallToSecondary( new GetIndexFilesRequest( expectedStoreId, indexId, lastTransactionId ), filesCopyAdaptor( storeFileStream, log ), addressProvider, terminationConditions.get() ); storeCopyClientMonitor.finishReceivingIndexSnapshot( indexId ); } storeCopyClientMonitor.finishReceivingIndexSnapshots(); }