/** * @param inMemoryCompaction the prefered in-memory compaction policy for * this column family * @return this (for chained invocation) */ public ModifyableColumnFamilyDescriptor setInMemoryCompaction(MemoryCompactionPolicy inMemoryCompaction) { return setValue(IN_MEMORY_COMPACTION_BYTES, inMemoryCompaction.name()); }
@Before public void setUp() throws Exception { MemoryCompactionPolicy policy = getMemoryCompactionPolicy(); TableDescriptorBuilder builder = TableDescriptorBuilder.newBuilder(TABLE_NAME) .setValue(CompactingMemStore.COMPACTING_MEMSTORE_TYPE_KEY, policy.name()); if (policy == MemoryCompactionPolicy.EAGER) { builder.setValue(MemStoreLAB.USEMSLAB_KEY, "false"); builder.setValue(CompactingMemStore.IN_MEMORY_FLUSH_THRESHOLD_FACTOR_KEY, "0.9"); } Stream.of(FAMILIES).map(ColumnFamilyDescriptorBuilder::of) .forEachOrdered(builder::setColumnFamily); UTIL.getAdmin().createTable(builder.build()); tool.setConf(UTIL.getConfiguration()); }
@BeforeClass public static void setUp() throws Exception { WriteHeavyIncrementObserverTestBase.setUp(); UTIL.getAdmin() .createTable(TableDescriptorBuilder.newBuilder(NAME) .setCoprocessor(WriteHeavyIncrementObserver.class.getName()) .setValue(CompactingMemStore.COMPACTING_MEMSTORE_TYPE_KEY, MemoryCompactionPolicy.EAGER.name()) .setColumnFamily(ColumnFamilyDescriptorBuilder.of(FAMILY)).build()); TABLE = UTIL.getConnection().getTable(NAME); }
/** * @param inMemoryCompaction the prefered in-memory compaction policy for * this column family * @return this (for chained invocation) */ public ModifyableColumnFamilyDescriptor setInMemoryCompaction(MemoryCompactionPolicy inMemoryCompaction) { return setValue(IN_MEMORY_COMPACTION_BYTES, inMemoryCompaction.name()); }
/** * @param inMemoryCompaction the prefered in-memory compaction policy for * this column family * @return this (for chained invocation) */ public ModifyableColumnFamilyDescriptor setInMemoryCompaction(MemoryCompactionPolicy inMemoryCompaction) { return setValue(IN_MEMORY_COMPACTION_BYTES, inMemoryCompaction.name()); }
@Before public void setUp() throws Exception { MemoryCompactionPolicy policy = getMemoryCompactionPolicy(); TableDescriptorBuilder builder = TableDescriptorBuilder.newBuilder(TABLE_NAME) .setValue(CompactingMemStore.COMPACTING_MEMSTORE_TYPE_KEY, policy.name()); if (policy == MemoryCompactionPolicy.EAGER) { builder.setValue(MemStoreLAB.USEMSLAB_KEY, "false"); builder.setValue(CompactingMemStore.IN_MEMORY_FLUSH_THRESHOLD_FACTOR_KEY, "0.9"); } Stream.of(FAMILIES).map(ColumnFamilyDescriptorBuilder::of) .forEachOrdered(builder::setColumnFamily); UTIL.getAdmin().createTable(builder.build()); tool.setConf(UTIL.getConfiguration()); }
@BeforeClass public static void setUp() throws Exception { WriteHeavyIncrementObserverTestBase.setUp(); UTIL.getAdmin() .createTable(TableDescriptorBuilder.newBuilder(NAME) .setCoprocessor(WriteHeavyIncrementObserver.class.getName()) .setValue(CompactingMemStore.COMPACTING_MEMSTORE_TYPE_KEY, MemoryCompactionPolicy.EAGER.name()) .setColumnFamily(ColumnFamilyDescriptorBuilder.of(FAMILY)).build()); TABLE = UTIL.getConnection().getTable(NAME); }
@BeforeClass public static void setUp() throws Exception { WriteHeavyIncrementObserverTestBase.setUp(); UTIL.getAdmin() .createTable(TableDescriptorBuilder.newBuilder(NAME) .setCoprocessor(WriteHeavyIncrementObserver.class.getName()) .setValue(CompactingMemStore.COMPACTING_MEMSTORE_TYPE_KEY, MemoryCompactionPolicy.EAGER.name()) .setColumnFamily(ColumnFamilyDescriptorBuilder.of(FAMILY)).build()); TABLE = UTIL.getConnection().getTable(NAME); }