@Override public void open() throws HyracksDataException { FileSplit split = splits[index]; RecordDescriptor desc = recordDescriptors[0]; IRecordReader reader; try { reader = createRecordReader(split.getLocalFile().getFile(), desc); } catch (Exception e) { throw new HyracksDataException(e); } if (desc == null) { desc = recordDescriptors[0]; } writer.open(); try { while (true) { Object[] record = new Object[desc.getFieldCount()]; if (!reader.read(record)) { break; } writer.writeData(record); } } catch (Exception e) { writer.fail(); throw new HyracksDataException(e); } finally { reader.close(); writer.close(); } }
@Override public void open() throws HyracksDataException { accessor = new FrameTupleAccessor(inputRecDesc); builder = new ArrayTupleBuilder(outputRecDesc.getFieldCount()); builderData = builder.getFieldData(); appender = new FrameTupleAppender(new VSizeFrame(ctx), true); writer.open(); }
static void prepareData( IHyracksTaskContext ctx, List<IFrame> frameList, int minDataSize, int minRecordSize, int maxRecordSize, Map<Integer, String> specialData, Map<Integer, String> keyValuePair) throws HyracksDataException { ArrayTupleBuilder tb = new ArrayTupleBuilder(RecordDesc.getFieldCount()); FrameTupleAppender appender = new FrameTupleAppender(); int datasize = 0; if (specialData != null) { for (Map.Entry<Integer, String> entry : specialData.entrySet()) { tb.reset(); tb.addField(IntegerSerializerDeserializer.INSTANCE, entry.getKey()); tb.addField(UTF8StringSerializerDeserializer.INSTANCE, entry.getValue()); VSizeFrame frame = new VSizeFrame( ctx, FrameHelper.calcAlignedFrameSizeToStore( tb.getFieldEndOffsets().length, tb.getSize(), ctx.getInitialFrameSize())); appender.reset(frame, true); assertTrue(appender.append(tb.getFieldEndOffsets(), tb.getByteArray(), 0, tb.getSize())); frameList.add(frame); datasize += frame.getFrameSize(); } keyValuePair.putAll(specialData); } VSizeFrame frame = new VSizeFrame(ctx, ctx.getInitialFrameSize()); appender.reset(frame, true); while (datasize < minDataSize) { tb.reset(); int key = GRandom.nextInt(minDataSize + 1); if (!keyValuePair.containsKey(key)) { String value = generateRandomRecord(minRecordSize, maxRecordSize); tb.addField(IntegerSerializerDeserializer.INSTANCE, key); tb.addField(UTF8StringSerializerDeserializer.INSTANCE, value); if (!appender.append(tb.getFieldEndOffsets(), tb.getByteArray(), 0, tb.getSize())) { frameList.add(frame); datasize += frame.getFrameSize(); frame = new VSizeFrame( ctx, FrameHelper.calcAlignedFrameSizeToStore( tb.getFieldEndOffsets().length, tb.getSize(), ctx.getInitialFrameSize())); appender.reset(frame, true); assertTrue(appender.append(tb.getFieldEndOffsets(), tb.getByteArray(), 0, tb.getSize())); } keyValuePair.put(key, value); } } if (appender.getTupleCount() > 0) { frameList.add(frame); } }
public class DeletableFrameTupleAppenderTest { DeletableFrameTupleAppender appender; ISerializerDeserializer[] fields = new ISerializerDeserializer[] { IntegerSerializerDeserializer.INSTANCE, new UTF8StringSerializerDeserializer(), }; RecordDescriptor recordDescriptor = new RecordDescriptor(fields); ArrayTupleBuilder builder = new ArrayTupleBuilder(recordDescriptor.getFieldCount()); static final char TEST_CH = 'x'; int cap = 256; @Before public void initial() throws HyracksDataException { appender = new DeletableFrameTupleAppender(recordDescriptor); } @Test public void testClear() throws Exception { ByteBuffer buffer = ByteBuffer.allocate(cap); appender.clear(buffer); assertTrue(appender.getBuffer() == buffer); assertTrue(appender.getTupleCount() == 0); assertTrue(appender.getContiguousFreeSpace() == cap - 4 - 4); } ByteBuffer makeAFrame(int capacity, int count, int deletedBytes) throws HyracksDataException { ByteBuffer buffer = ByteBuffer.allocate(capacity); int metaOffset = capacity - 4; buffer.putInt(metaOffset, deletedBytes); metaOffset -= 4; buffer.putInt(metaOffset, count); metaOffset -= 4; for (int i = 0; i < count; i++, metaOffset -= 4) { makeARecord(builder, i); for (int x = 0; x < builder.getFieldEndOffsets().length; x++) { buffer.putInt(builder.getFieldEndOffsets()[x]); } buffer.put(builder.getByteArray(), 0, builder.getSize()); assert (metaOffset > buffer.position()); buffer.putInt(metaOffset, buffer.position()); } return buffer; } void makeARecord(ArrayTupleBuilder builder, int i) throws HyracksDataException { builder.reset(); builder.addField(fields[0], i + 1); builder.addField(fields[1], Utility.repeatString(TEST_CH, i + 1)); } int assertTupleIsExpected(int i, int dataOffset) { int lenStrMeta = UTF8StringUtil.getNumBytesToStoreLength(i); int tupleLength = 2 * 4 + 4 + lenStrMeta + i + 1; assertEquals(dataOffset, appender.getTupleStartOffset(i)); assertEquals(tupleLength, appender.getTupleLength(i)); assertEquals(dataOffset + 2 * 4, appender.getAbsoluteFieldStartOffset(i, 0)); assertEquals(4, appender.getFieldLength(i, 0)); assertEquals( i + 1, IntSerDeUtils.getInt( appender.getBuffer().array(), appender.getAbsoluteFieldStartOffset(i, 0))); assertEquals(dataOffset + 2 * 4 + 4, appender.getAbsoluteFieldStartOffset(i, 1)); assertEquals(lenStrMeta + i + 1, appender.getFieldLength(i, 1)); return tupleLength; } @Test public void testReset() throws Exception { ByteBuffer buffer = ByteBuffer.allocate(cap); appender.reset(buffer); assertTrue(appender.getBuffer() == buffer); assertTrue(appender.getTupleCount() == 0); assertTrue(appender.getContiguousFreeSpace() == cap - 4 - 4); int count = 10; int deleted = 7; buffer = makeAFrame(cap, count, deleted); int pos = buffer.position(); appender.reset(buffer); assertTrue(appender.getBuffer() == buffer); assertTrue(appender.getTupleCount() == count); assertTrue(appender.getContiguousFreeSpace() == cap - 4 - 4 - count * 4 - pos); assertTrue(appender.getTotalFreeSpace() == appender.getContiguousFreeSpace() + deleted); int dataOffset = 0; for (int i = 0; i < count; i++) { dataOffset += assertTupleIsExpected(i, dataOffset); } } @Test public void testAppend() throws Exception { int count = 10; ByteBuffer bufferRead = makeAFrame(cap, count, 0); DeletableFrameTupleAppender accessor = new DeletableFrameTupleAppender(recordDescriptor); accessor.reset(bufferRead); ByteBuffer bufferWrite = ByteBuffer.allocate(cap); appender.clear(bufferWrite); for (int i = 0; i < accessor.getTupleCount(); i++) { appender.append(accessor, i); } for (int i = 0; i < bufferRead.capacity(); i++) { assertEquals(bufferRead.get(i), bufferWrite.get(i)); } } @Test public void testDelete() throws Exception { int count = 10; int deleteSpace = 0; ByteBuffer buffer = makeAFrame(cap, count, deleteSpace); appender.reset(buffer); int freeSpace = appender.getContiguousFreeSpace(); for (int i = 0; i < appender.getTupleCount(); i++) { deleteSpace += assertDeleteSucceed(i, freeSpace, deleteSpace); int innerOffset = deleteSpace; for (int j = i + 1; j < appender.getTupleCount(); j++) { innerOffset += assertTupleIsExpected(j, innerOffset); } } } @Test public void testResetAfterDelete() throws Exception { testDelete(); appender.reset(appender.getBuffer()); assertEquals(cap - appender.getTupleCount() * 4 - 4 - 4, appender.getTotalFreeSpace()); } int assertDeleteSucceed(int i, int freeSpaceBeforeDelete, int deleteSpace) { int startOffset = appender.getTupleStartOffset(i); int endOffset = appender.getTupleEndOffset(i); int tupleLength = appender.getTupleLength(i); appender.delete(i); assertEquals(startOffset, appender.getTupleStartOffset(i)); assertEquals(-endOffset, appender.getTupleEndOffset(i)); assertEquals(-tupleLength, appender.getTupleLength(i)); assertEquals(freeSpaceBeforeDelete, appender.getContiguousFreeSpace()); assertEquals(deleteSpace + tupleLength + freeSpaceBeforeDelete, appender.getTotalFreeSpace()); return tupleLength; } @Test public void testAppendAndDelete() throws Exception { int cap = 1024; int count = 10; int deleteSpace = 0; ByteBuffer buffer = makeAFrame(cap, count, deleteSpace); int dataOffset = buffer.position(); appender.reset(buffer); int freeSpace = appender.getContiguousFreeSpace(); int[] deleteSet = new int[] {1, 3, 5}; for (int i = 0; i < deleteSet.length; i++) { deleteSpace += assertDeleteSucceed(deleteSet[i], freeSpace, deleteSpace); } ByteBuffer bufferRead = makeAFrame(cap, count * 2, 0); DeletableFrameTupleAppender accessor = new DeletableFrameTupleAppender(recordDescriptor); accessor.reset(bufferRead); for (int i = count; i < accessor.getTupleCount(); i++) { int id = appender.append(accessor, i); dataOffset += assertTupleIsExpected(i, dataOffset); assertEquals(i, id); } appender.reOrganizeBuffer(); dataOffset = 0; for (int i = 0; i < appender.getTupleCount(); i++) { if (ArrayUtils.contains(deleteSet, i)) { continue; } dataOffset += assertTupleIsExpected(i, dataOffset); } } @Test public void testReOrganizeBuffer() throws Exception { int count = 10; testDelete(); appender.reOrganizeBuffer(); ByteBuffer bufferRead = makeAFrame(cap, count, 0); DeletableFrameTupleAppender accessor = new DeletableFrameTupleAppender(recordDescriptor); accessor.reset(bufferRead); for (int i = 0; i < accessor.getTupleCount(); i++) { appender.append(accessor, i); } for (int i = 0; i < bufferRead.capacity(); i++) { assertEquals(bufferRead.get(i), appender.getBuffer().get(i)); } } }