@Test public void testTimeRangeAfterCompaction() throws IOException { if (toCellChunkMap) { // set memstore to flat into CellChunkMap ((CompactingMemStore)memstore).setIndexType(CompactingMemStore.IndexType.CHUNK_MAP); } testTimeRange(true); }
@Override @Before public void setUp() throws Exception { compactingSetUp(); this.memstore = new MyCompactingMemStore(HBaseConfiguration.create(), CellComparator.getInstance(), store, regionServicesForStores, MemoryCompactionPolicy.EAGER); ((CompactingMemStore)memstore).setIndexType(CompactingMemStore.IndexType.ARRAY_MAP); }
@Test public void testTimeRangeAfterMerge() throws IOException { if (toCellChunkMap) { // set memstore to flat into CellChunkMap ((CompactingMemStore)memstore).setIndexType(CompactingMemStore.IndexType.CHUNK_MAP); } MemoryCompactionPolicy compactionType = MemoryCompactionPolicy.BASIC; memstore.getConfiguration().set(CompactingMemStore.COMPACTING_MEMSTORE_TYPE_KEY, String.valueOf(compactionType)); ((MyCompactingMemStore)memstore).initiateType(compactionType, memstore.getConfiguration()); testTimeRange(false); }
String.valueOf(compactionType)); ((MyCompactingMemStore) memstore).initiateType(compactionType, memstore.getConfiguration()); ((CompactingMemStore) memstore).setIndexType(CompactingMemStore.IndexType.CHUNK_MAP);
String.valueOf(compactionType)); ((MyCompactingMemStore)memstore).initiateType(compactionType, memstore.getConfiguration()); ((CompactingMemStore)memstore).setIndexType(CompactingMemStore.IndexType.CHUNK_MAP); int numOfCells = 8; String[] keys1 = { "A", "A", "B", "C", "D", "D", "E", "F" }; //A1, A2, B3, C4, D5, D6, E7, F8
String.valueOf(compactionType)); ((MyCompactingMemStore)memstore).initiateType(compactionType, memstore.getConfiguration()); ((CompactingMemStore)memstore).setIndexType(CompactingMemStore.IndexType.CHUNK_MAP); int numOfCells = 4; char[] chars = new char[MemStoreLAB.MAX_ALLOC_DEFAULT];
String.valueOf(compactionType)); ((MyCompactingMemStore) memstore).initiateType(compactionType, memstore.getConfiguration()); ((CompactingMemStore) memstore).setIndexType(CompactingMemStore.IndexType.CHUNK_MAP);
if (toCellChunkMap) { ((CompactingMemStore)memstore).setIndexType(CompactingMemStore.IndexType.CHUNK_MAP); } else { ((CompactingMemStore)memstore).setIndexType(CompactingMemStore.IndexType.ARRAY_MAP);
if (toCellChunkMap) { ((CompactingMemStore)memstore).setIndexType(CompactingMemStore.IndexType.CHUNK_MAP);
if (toCellChunkMap) { ((CompactingMemStore)memstore).setIndexType(CompactingMemStore.IndexType.CHUNK_MAP); } else { ((CompactingMemStore)memstore).setIndexType(CompactingMemStore.IndexType.ARRAY_MAP);
((CompactingMemStore) ((HStore)region.getStore(FAMILY1)).memstore).setIndexType( CompactingMemStore.IndexType.ARRAY_MAP); ((CompactingMemStore) ((HStore)region.getStore(FAMILY3)).memstore).setIndexType( CompactingMemStore.IndexType.ARRAY_MAP);
if (toCellChunkMap) { ((CompactingMemStore)memstore).setIndexType(CompactingMemStore.IndexType.CHUNK_MAP); } else { ((CompactingMemStore)memstore).setIndexType(CompactingMemStore.IndexType.ARRAY_MAP);
@Test public void testTimeRangeAfterCompaction() throws IOException { if (toCellChunkMap) { // set memstore to flat into CellChunkMap ((CompactingMemStore)memstore).setIndexType(CompactingMemStore.IndexType.CHUNK_MAP); } testTimeRange(true); }
@Test public void testTimeRangeAfterMerge() throws IOException { if (toCellChunkMap) { // set memstore to flat into CellChunkMap ((CompactingMemStore)memstore).setIndexType(CompactingMemStore.IndexType.CHUNK_MAP); } MemoryCompactionPolicy compactionType = MemoryCompactionPolicy.BASIC; memstore.getConfiguration().set(CompactingMemStore.COMPACTING_MEMSTORE_TYPE_KEY, String.valueOf(compactionType)); ((MyCompactingMemStore)memstore).initiateType(compactionType, memstore.getConfiguration()); testTimeRange(false); }
@Override @Before public void setUp() throws Exception { compactingSetUp(); this.memstore = new MyCompactingMemStore(HBaseConfiguration.create(), CellComparator.getInstance(), store, regionServicesForStores, MemoryCompactionPolicy.EAGER); ((CompactingMemStore)memstore).setIndexType(CompactingMemStore.IndexType.ARRAY_MAP); }
String.valueOf(compactionType)); ((MyCompactingMemStore) memstore).initiateType(compactionType, memstore.getConfiguration()); ((CompactingMemStore) memstore).setIndexType(CompactingMemStore.IndexType.CHUNK_MAP);
String.valueOf(compactionType)); ((MyCompactingMemStore)memstore).initiateType(compactionType, memstore.getConfiguration()); ((CompactingMemStore)memstore).setIndexType(CompactingMemStore.IndexType.CHUNK_MAP); int numOfCells = 8; String[] keys1 = { "A", "A", "B", "C", "D", "D", "E", "F" }; //A1, A2, B3, C4, D5, D6, E7, F8
if (toCellChunkMap) { ((CompactingMemStore)memstore).setIndexType(CompactingMemStore.IndexType.CHUNK_MAP); } else { ((CompactingMemStore)memstore).setIndexType(CompactingMemStore.IndexType.ARRAY_MAP);
if (toCellChunkMap) { ((CompactingMemStore)memstore).setIndexType(CompactingMemStore.IndexType.CHUNK_MAP);
if (toCellChunkMap) { ((CompactingMemStore)memstore).setIndexType(CompactingMemStore.IndexType.CHUNK_MAP); } else { ((CompactingMemStore)memstore).setIndexType(CompactingMemStore.IndexType.ARRAY_MAP);