public int size() { return delegate.size(); }
/** * Gets the number of registered aliases. * * @return The number of aliases */ public synchronized int size() { return this.commands.size(); }
public int size() { return delegate.size(); }
@CollectionSize.Require(SEVERAL) @MapFeature.Require(SUPPORTS_REMOVE) public void testValuesRemove() { resetContainer( Helpers.mapEntry(k0(), v0()), Helpers.mapEntry(k1(), v0()), Helpers.mapEntry(k0(), v3())); assertTrue(multimap().asMap().values().remove(Collections.singletonList(v0()))); assertEquals(2, multimap().size()); assertEquals( Collections.singletonMap(k0(), Lists.newArrayList(v0(), v3())), multimap().asMap()); } }
if (indexSets.size() == 0) { info("No indices, nothing to calculate."); return;
bundleLibs.size() + configLibs.size() + dependencyLibs.size() ); libraries.addAll(bundleLibs.values());
@Override public String toString() { return "current path: \"" + path + "\"; " + msgMap.size() + " messages"; } }
/** * Gets the number of registered aliases. * * @return The number of aliases */ public synchronized int size() { return this.commands.size(); }
public int getSize() { return this.map.size(); }
private boolean queueSizeWithinLimits(){ if (nrtIndexedList.size() >= inMemoryDocsLimit){ if (!limitWarningLogged){ log.warn("Number of in memory documents meant for hybrid indexing has " + "exceeded limit [{}]. Some documents would be dropped", inMemoryDocsLimit); limitWarningLogged = true; } return false; } return true; }
private boolean queueSizeWithinLimits(){ if (nrtIndexedList.size() >= inMemoryDocsLimit){ if (!limitWarningLogged){ log.warn("Number of in memory documents meant for hybrid indexing has " + "exceeded limit [{}]. Some documents would be dropped", inMemoryDocsLimit); limitWarningLogged = true; } return false; } return true; }
String tableName = table.getTableName().getString(); Map<String, List<Pair<String, Object>>> properties=new HashMap<>(statement.getProps().size());; MetaProperties metaProperties = loadStmtProperties(statement.getProps(),properties,table,false);
@Override public void write() throws IOException { if (moduleMethodLookup.size() > 0) writeGroupHeader("Module methods", moduleMethodLookup); if (methodLookup.size() > 0) writeGroupHeader("Targeted methods", methodLookup); if (metaLookup.size() > 0) writeGroupHeader("Metadata providers", metaLookup); if (moduleMethodLookup.size() > 0) { writeGroupElements("Module methods", moduleMethodLookup, this::writeMethodTarget); } if (methodLookup.size() > 0) writeGroupElements("Targeted methods", methodLookup, this::writeMethodTarget); if (metaLookup.size() > 0) writeGroupElements("Metadata providers", metaLookup, this::writeMetaTarget); }
MetaProperties metaProperties = new MetaProperties(); while (true) { Map<String, List<Pair<String, Object>>> properties=new HashMap<>(stmtProperties.size());; metaProperties = loadStmtProperties(stmtProperties,properties,table,removeTableProps);
TableName indexTableName = statement.getIndexTableName(); Map<String,Object> tableProps = Maps.newHashMapWithExpectedSize(statement.getProps().size()); Map<String,Object> commonFamilyProps = Maps.newHashMapWithExpectedSize(statement.getProps().size() + 1); populatePropertyMaps(statement.getProps(), tableProps, commonFamilyProps, PTableType.INDEX); List<Pair<ParseNode, SortOrder>> indexParseNodeAndSortOrderList = ik.getParseNodeAndSortOrderList();
public MutationState createTable(CreateTableStatement statement, byte[][] splits, PTable parent, String viewStatement, ViewType viewType, PDataType viewIndexIdType, byte[][] viewColumnConstants, BitSet isViewColumnReferenced) throws SQLException { TableName tableName = statement.getTableName(); Map<String,Object> tableProps = Maps.newHashMapWithExpectedSize(statement.getProps().size()); Map<String,Object> commonFamilyProps = Maps.newHashMapWithExpectedSize(statement.getProps().size() + 1); populatePropertyMaps(statement.getProps(), tableProps, commonFamilyProps, statement.getTableType());
private Collection<Mutation> mergeMutations(Iterable<Mutation> mutations) { ListMultimap<Pair<String, ByteBuffer>, Mutation> groupedMutations = ArrayListMultimap.create(); for (Mutation mutation : mutations) { Pair<String, ByteBuffer> key = Pair.create(mutation.getKeyspaceName(), mutation.key().getKey()); groupedMutations.put(key, mutation); } List<Mutation> merged = new ArrayList<>(groupedMutations.size()); for (Pair<String, ByteBuffer> key : groupedMutations.keySet()) merged.add(Mutation.merge(groupedMutations.get(key))); return merged; }
@CollectionSize.Require(SEVERAL) @MapFeature.Require(SUPPORTS_REMOVE) public void testValuesRemove() { resetContainer( Helpers.mapEntry(k0(), v0()), Helpers.mapEntry(k1(), v0()), Helpers.mapEntry(k0(), v3())); assertTrue(multimap().asMap().values().remove(Collections.singletonList(v0()))); assertEquals(2, multimap().size()); assertEquals( Collections.singletonMap(k0(), Lists.newArrayList(v0(), v3())), multimap().asMap()); } }