Java Code Examples for org.apache.flink.runtime.operators.testutils.TestData#getIntStringTupleSerializer()

The following examples show how to use org.apache.flink.runtime.operators.testutils.TestData#getIntStringTupleSerializer() . These examples are extracted from open source projects. You can vote up the ones you like or vote down the ones you don't like, and go to the original project or source file by following the links above each example. You may check out the related API usage on the sidebar.
Example 1
@SuppressWarnings({"unchecked", "rawtypes"})
@Before
public void beforeTest() {
	this.recordSerializer = TestData.getIntStringTupleSerializer();

	this.record1Comparator = TestData.getIntStringTupleComparator();
	this.record2Comparator = TestData.getIntStringTupleComparator();
	this.recordPairComparator = new GenericPairComparator(this.record1Comparator, this.record2Comparator);

	this.recordBuildSideAccesssor = TestData.getIntIntTupleSerializer();
	this.recordProbeSideAccesssor = TestData.getIntIntTupleSerializer();
	this.recordBuildSideComparator = TestData.getIntIntTupleComparator();
	this.recordProbeSideComparator = TestData.getIntIntTupleComparator();
	this.pactRecordComparator = new GenericPairComparator(this.recordBuildSideComparator, this.recordProbeSideComparator);

	this.memoryManager = new MemoryManager(MEMORY_SIZE, 1, PAGE_SIZE, MemoryType.HEAP, true);
	this.ioManager = new IOManagerAsync();
}
 
Example 2
@SuppressWarnings("unchecked")
@Before
public void beforeTest() {
	this.recordSerializer = TestData.getIntStringTupleSerializer();
	
	this.record1Comparator = TestData.getIntStringTupleComparator();
	this.record2Comparator = TestData.getIntStringTupleComparator();
	
	this.recordPairComparator = new GenericPairComparator(this.record1Comparator, this.record2Comparator);
	
	this.pairSerializer = new IntPairSerializer();
	this.pairComparator = new TestData.IntPairComparator();
	this.pairRecordPairComparator = new IntPairTuplePairComparator();
	this.recordPairPairComparator = new TupleIntPairPairComparator();
	
	this.memoryManager = MemoryManagerBuilder.newBuilder().setMemorySize(MEMORY_SIZE).build();
	this.ioManager = new IOManagerAsync();
}
 
Example 3
@SuppressWarnings("unchecked")
@Before
public void beforeTest() {
	this.recordSerializer = TestData.getIntStringTupleSerializer();
	
	this.record1Comparator = TestData.getIntStringTupleComparator();
	this.record2Comparator = TestData.getIntStringTupleComparator();
	
	this.recordPairComparator = new GenericPairComparator(record1Comparator, record2Comparator);
	
	this.pairSerializer = new IntPairSerializer();
	this.pairComparator = new TestData.IntPairComparator();
	this.pairRecordPairComparator = new IntPairTuplePairComparator();
	this.recordPairPairComparator = new TupleIntPairPairComparator();
	
	this.memoryManager = new MemoryManager(MEMORY_SIZE, 1);
	this.ioManager = new IOManagerAsync();
}
 
Example 4
@SuppressWarnings("unchecked")
@Before
public void beforeTest() {
	this.recordSerializer = TestData.getIntStringTupleSerializer();
	
	this.record1Comparator = TestData.getIntStringTupleComparator();
	this.record2Comparator = TestData.getIntStringTupleComparator();
	
	this.recordPairComparator = new GenericPairComparator(record1Comparator, record2Comparator);
	
	this.pairSerializer = new IntPairSerializer();
	this.pairComparator = new TestData.IntPairComparator();
	this.pairRecordPairComparator = new IntPairTuplePairComparator();
	this.recordPairPairComparator = new TupleIntPairPairComparator();
	
	this.memoryManager = MemoryManagerBuilder.newBuilder().setMemorySize(MEMORY_SIZE).build();
	this.ioManager = new IOManagerAsync();
}
 
Example 5
@SuppressWarnings("unchecked")
@Before
public void beforeTest() {
	this.serializer1 = TestData.getIntStringTupleSerializer();
	this.serializer2 = TestData.getIntStringTupleSerializer();
	this.comparator1 = TestData.getIntStringTupleComparator();
	this.comparator2 = TestData.getIntStringTupleComparator();
	this.pairComparator = new GenericPairComparator(this.comparator1, this.comparator2);
}
 
Example 6
@SuppressWarnings("unchecked")
@Before
public void beforeTest() {
	this.serializer1 = TestData.getIntStringTupleSerializer();
	this.serializer2 = TestData.getIntStringTupleSerializer();
	this.comparator1 = TestData.getIntStringTupleComparator();
	this.comparator2 = TestData.getIntStringTupleComparator();
	this.pairComparator = new GenericPairComparator(comparator1, comparator2);
}
 
Example 7
@SuppressWarnings("unchecked")
@Before
public void beforeTest() {
	this.serializer1 = TestData.getIntStringTupleSerializer();
	this.serializer2 = TestData.getIntStringTupleSerializer();
	this.comparator1 = TestData.getIntStringTupleComparator();
	this.comparator2 = TestData.getIntStringTupleComparator();
	this.pairComparator = new GenericPairComparator(comparator1, comparator2);
}
 
Example 8
@SuppressWarnings("unchecked")
@Before
public void beforeTest() {
	this.serializer1 = TestData.getIntStringTupleSerializer();
	this.serializer2 = TestData.getIntStringTupleSerializer();
	this.comparator1 = TestData.getIntStringTupleComparator();
	this.comparator2 = TestData.getIntStringTupleComparator();
	this.pairComparator = new GenericPairComparator(comparator1, comparator2);
}
 
Example 9
Source Project: flink   File: ChannelViewsTest.java    License: Apache License 2.0 4 votes vote down vote up
@Test
public void testWriteAndReadLongRecords() throws Exception
{
	final TestData.TupleGenerator generator = new TestData.TupleGenerator(SEED, KEY_MAX, VALUE_LONG_LENGTH, KeyMode.RANDOM, ValueMode.RANDOM_LENGTH);
	final FileIOChannel.ID channel = this.ioManager.createChannel();
	final TypeSerializer<Tuple2<Integer, String>> serializer = TestData.getIntStringTupleSerializer();
	
	// create the writer output view
	List<MemorySegment> memory = this.memoryManager.allocatePages(this.parentTask, NUM_MEMORY_SEGMENTS);
	final BlockChannelWriter<MemorySegment> writer = this.ioManager.createBlockChannelWriter(channel);
	final ChannelWriterOutputView outView = new ChannelWriterOutputView(writer, memory, MEMORY_PAGE_SIZE);
	
	// write a number of pairs
	final Tuple2<Integer, String> rec = new Tuple2<>();
	for (int i = 0; i < NUM_PAIRS_LONG; i++) {
		generator.next(rec);
		serializer.serialize(rec, outView);
	}
	this.memoryManager.release(outView.close());
	
	// create the reader input view
	memory = this.memoryManager.allocatePages(this.parentTask, NUM_MEMORY_SEGMENTS);
	final BlockChannelReader<MemorySegment> reader = this.ioManager.createBlockChannelReader(channel);
	final ChannelReaderInputView inView = new ChannelReaderInputView(reader, memory, outView.getBlockCount(), true);
	generator.reset();
	
	// read and re-generate all records and compare them
	final Tuple2<Integer, String> readRec = new Tuple2<>();
	for (int i = 0; i < NUM_PAIRS_LONG; i++) {
		generator.next(rec);
		serializer.deserialize(readRec, inView);
		final int k1 = rec.f0;
		final String v1 = rec.f1;
		final int k2 = readRec.f0;
		final String v2 = readRec.f1;
		Assert.assertTrue("The re-generated and the read record do not match.", k1 == k2 && v1.equals(v2));
	}
	
	this.memoryManager.release(inView.close());
	reader.deleteChannel();
}
 
Example 10
private NormalizedKeySorter<Tuple2<Integer, String>> newSortBuffer(List<MemorySegment> memory) throws Exception
{
	return new NormalizedKeySorter<>(TestData.getIntStringTupleSerializer(), TestData.getIntStringTupleComparator(), memory);
}
 
Example 11
Source Project: flink   File: ChannelViewsTest.java    License: Apache License 2.0 4 votes vote down vote up
@Test
public void testReadWithoutKnownBlockCount() throws Exception
{
	final TestData.TupleGenerator generator = new TestData.TupleGenerator(SEED, KEY_MAX, VALUE_SHORT_LENGTH, KeyMode.RANDOM, ValueMode.RANDOM_LENGTH);
	final FileIOChannel.ID channel = this.ioManager.createChannel();
	final TypeSerializer<Tuple2<Integer, String>> serializer = TestData.getIntStringTupleSerializer();
	
	// create the writer output view
	List<MemorySegment> memory = this.memoryManager.allocatePages(this.parentTask, NUM_MEMORY_SEGMENTS);
	final BlockChannelWriter<MemorySegment> writer = this.ioManager.createBlockChannelWriter(channel);
	final ChannelWriterOutputView outView = new ChannelWriterOutputView(writer, memory, MEMORY_PAGE_SIZE);
	
	// write a number of pairs
	final Tuple2<Integer, String> rec = new Tuple2<>();
	for (int i = 0; i < NUM_PAIRS_SHORT; i++) {
		generator.next(rec);
		serializer.serialize(rec, outView);
	}
	this.memoryManager.release(outView.close());
	
	// create the reader input view
	memory = this.memoryManager.allocatePages(this.parentTask, NUM_MEMORY_SEGMENTS);
	final BlockChannelReader<MemorySegment> reader = this.ioManager.createBlockChannelReader(channel);
	final ChannelReaderInputView inView = new ChannelReaderInputView(reader, memory, true);
	generator.reset();
	
	// read and re-generate all records and compare them
	final Tuple2<Integer, String> readRec = new Tuple2<>();
	for (int i = 0; i < NUM_PAIRS_SHORT; i++) {
		generator.next(rec);
		serializer.deserialize(readRec, inView);
		
		int k1 = rec.f0;
		String v1 = rec.f1;
		
		int k2 = readRec.f0;
		String v2 = readRec.f1;
		
		Assert.assertTrue("The re-generated and the read record do not match.", k1 == k2 && v1.equals(v2));
	}
	
	this.memoryManager.release(inView.close());
	reader.deleteChannel();
}
 
Example 12
Source Project: flink   File: NormalizedKeySorterTest.java    License: Apache License 2.0 4 votes vote down vote up
@Test
public void testSortLongStringKeys() throws Exception {
	final int numSegments = MEMORY_SIZE / MEMORY_PAGE_SIZE;
	final List<MemorySegment> memory = this.memoryManager.allocatePages(new DummyInvokable(), numSegments);
	
	@SuppressWarnings("unchecked")
	TypeComparator<Tuple2<Integer, String>> accessors = TestData.getIntStringTupleTypeInfo().createComparator(new int[]{1}, new boolean[]{true}, 0, null);
	NormalizedKeySorter<Tuple2<Integer, String>> sorter = new NormalizedKeySorter<>(TestData.getIntStringTupleSerializer(), accessors, memory);
	
	TestData.TupleGenerator generator = new TestData.TupleGenerator(SEED, KEY_MAX, VALUE_LENGTH, KeyMode.RANDOM,
		ValueMode.FIX_LENGTH);
	
	// write the records
	Tuple2<Integer, String> record = new Tuple2<>();
	do {
		generator.next(record);
	}
	while (sorter.write(record));
	
	QuickSort qs = new QuickSort();
	qs.sort(sorter);
	
	MutableObjectIterator<Tuple2<Integer, String>> iter = sorter.getIterator();
	Tuple2<Integer, String> readTarget = new Tuple2<>();
	
	iter.next(readTarget);
	String last = readTarget.f1;
	
	while ((readTarget = iter.next(readTarget)) != null) {
		String current = readTarget.f1;
		
		final int cmp = last.compareTo(current);
		if (cmp > 0) {
			Assert.fail("Next value is not larger or equal to previous value.");
		}
		
		last = current;
	}
	
	// release the memory occupied by the buffers
	sorter.dispose();
	this.memoryManager.release(memory);
}
 
Example 13
Source Project: flink   File: ChannelViewsTest.java    License: Apache License 2.0 4 votes vote down vote up
@Test
public void testWriteReadOneBufferOnly() throws Exception
{
	final TestData.TupleGenerator generator = new TestData.TupleGenerator(SEED, KEY_MAX, VALUE_SHORT_LENGTH, KeyMode.RANDOM, ValueMode.RANDOM_LENGTH);
	final FileIOChannel.ID channel = this.ioManager.createChannel();
	final TypeSerializer<Tuple2<Integer, String>> serializer = TestData.getIntStringTupleSerializer();
	
	// create the writer output view
	List<MemorySegment> memory = this.memoryManager.allocatePages(this.parentTask, 1);
	final BlockChannelWriter<MemorySegment> writer = this.ioManager.createBlockChannelWriter(channel);
	final ChannelWriterOutputView outView = new ChannelWriterOutputView(writer, memory, MEMORY_PAGE_SIZE);
	
	// write a number of pairs
	final Tuple2<Integer, String> rec = new Tuple2<>();
	for (int i = 0; i < NUM_PAIRS_SHORT; i++) {
		generator.next(rec);
		serializer.serialize(rec, outView);
	}
	this.memoryManager.release(outView.close());
	
	// create the reader input view
	memory = this.memoryManager.allocatePages(this.parentTask, 1);
	final BlockChannelReader<MemorySegment> reader = this.ioManager.createBlockChannelReader(channel);
	final ChannelReaderInputView inView = new ChannelReaderInputView(reader, memory, outView.getBlockCount(), true);
	generator.reset();
	
	// read and re-generate all records and compare them
	final Tuple2<Integer, String> readRec = new Tuple2<>();
	for (int i = 0; i < NUM_PAIRS_SHORT; i++) {
		generator.next(rec);
		serializer.deserialize(readRec, inView);
		
		int k1 = rec.f0;
		String v1 = rec.f1;
		
		int k2 = readRec.f0;
		String v2 = readRec.f1;
		
		Assert.assertTrue("The re-generated and the read record do not match.", k1 == k2 && v1.equals(v2));
	}
	
	this.memoryManager.release(inView.close());
	reader.deleteChannel();
}
 
Example 14
Source Project: flink   File: ChannelViewsTest.java    License: Apache License 2.0 4 votes vote down vote up
@Test
public void testWriteReadNotAll() throws Exception
{
	final TestData.TupleGenerator generator = new TestData.TupleGenerator(SEED, KEY_MAX, VALUE_SHORT_LENGTH, KeyMode.RANDOM, ValueMode.RANDOM_LENGTH);
	final FileIOChannel.ID channel = this.ioManager.createChannel();
	final TypeSerializer<Tuple2<Integer, String>> serializer = TestData.getIntStringTupleSerializer();
	
	// create the writer output view
	List<MemorySegment> memory = this.memoryManager.allocatePages(this.parentTask, NUM_MEMORY_SEGMENTS);
	final BlockChannelWriter<MemorySegment> writer = this.ioManager.createBlockChannelWriter(channel);
	final ChannelWriterOutputView outView = new ChannelWriterOutputView(writer, memory, MEMORY_PAGE_SIZE);
	
	// write a number of pairs
	final Tuple2<Integer, String> rec = new Tuple2<>();
	for (int i = 0; i < NUM_PAIRS_SHORT; i++) {
		generator.next(rec);
		serializer.serialize(rec, outView);
	}
	this.memoryManager.release(outView.close());
	
	// create the reader input view
	memory = this.memoryManager.allocatePages(this.parentTask, NUM_MEMORY_SEGMENTS);
	final BlockChannelReader<MemorySegment> reader = this.ioManager.createBlockChannelReader(channel);
	final ChannelReaderInputView inView = new ChannelReaderInputView(reader, memory, outView.getBlockCount(), true);
	generator.reset();
	
	// read and re-generate all records and compare them
	final Tuple2<Integer, String> readRec = new Tuple2<>();
	for (int i = 0; i < NUM_PAIRS_SHORT / 2; i++) {
		generator.next(rec);
		serializer.deserialize(readRec, inView);
		
		int k1 = rec.f0;
		String v1 = rec.f1;
		
		int k2 = readRec.f0;
		String v2 = readRec.f1;
		
		Assert.assertTrue("The re-generated and the read record do not match.", k1 == k2 && v1.equals(v2));
	}
	
	this.memoryManager.release(inView.close());
	reader.deleteChannel();
}
 
Example 15
Source Project: Flink-CEPplus   File: ChannelViewsTest.java    License: Apache License 2.0 4 votes vote down vote up
@Test
public void testWriteReadOneBufferOnly() throws Exception
{
	final TestData.TupleGenerator generator = new TestData.TupleGenerator(SEED, KEY_MAX, VALUE_SHORT_LENGTH, KeyMode.RANDOM, ValueMode.RANDOM_LENGTH);
	final FileIOChannel.ID channel = this.ioManager.createChannel();
	final TypeSerializer<Tuple2<Integer, String>> serializer = TestData.getIntStringTupleSerializer();
	
	// create the writer output view
	List<MemorySegment> memory = this.memoryManager.allocatePages(this.parentTask, 1);
	final BlockChannelWriter<MemorySegment> writer = this.ioManager.createBlockChannelWriter(channel);
	final ChannelWriterOutputView outView = new ChannelWriterOutputView(writer, memory, MEMORY_PAGE_SIZE);
	
	// write a number of pairs
	final Tuple2<Integer, String> rec = new Tuple2<>();
	for (int i = 0; i < NUM_PAIRS_SHORT; i++) {
		generator.next(rec);
		serializer.serialize(rec, outView);
	}
	this.memoryManager.release(outView.close());
	
	// create the reader input view
	memory = this.memoryManager.allocatePages(this.parentTask, 1);
	final BlockChannelReader<MemorySegment> reader = this.ioManager.createBlockChannelReader(channel);
	final ChannelReaderInputView inView = new ChannelReaderInputView(reader, memory, outView.getBlockCount(), true);
	generator.reset();
	
	// read and re-generate all records and compare them
	final Tuple2<Integer, String> readRec = new Tuple2<>();
	for (int i = 0; i < NUM_PAIRS_SHORT; i++) {
		generator.next(rec);
		serializer.deserialize(readRec, inView);
		
		int k1 = rec.f0;
		String v1 = rec.f1;
		
		int k2 = readRec.f0;
		String v2 = readRec.f1;
		
		Assert.assertTrue("The re-generated and the read record do not match.", k1 == k2 && v1.equals(v2));
	}
	
	this.memoryManager.release(inView.close());
	reader.deleteChannel();
}
 
Example 16
Source Project: Flink-CEPplus   File: ChannelViewsTest.java    License: Apache License 2.0 4 votes vote down vote up
@Test
public void testWriteReadNotAll() throws Exception
{
	final TestData.TupleGenerator generator = new TestData.TupleGenerator(SEED, KEY_MAX, VALUE_SHORT_LENGTH, KeyMode.RANDOM, ValueMode.RANDOM_LENGTH);
	final FileIOChannel.ID channel = this.ioManager.createChannel();
	final TypeSerializer<Tuple2<Integer, String>> serializer = TestData.getIntStringTupleSerializer();
	
	// create the writer output view
	List<MemorySegment> memory = this.memoryManager.allocatePages(this.parentTask, NUM_MEMORY_SEGMENTS);
	final BlockChannelWriter<MemorySegment> writer = this.ioManager.createBlockChannelWriter(channel);
	final ChannelWriterOutputView outView = new ChannelWriterOutputView(writer, memory, MEMORY_PAGE_SIZE);
	
	// write a number of pairs
	final Tuple2<Integer, String> rec = new Tuple2<>();
	for (int i = 0; i < NUM_PAIRS_SHORT; i++) {
		generator.next(rec);
		serializer.serialize(rec, outView);
	}
	this.memoryManager.release(outView.close());
	
	// create the reader input view
	memory = this.memoryManager.allocatePages(this.parentTask, NUM_MEMORY_SEGMENTS);
	final BlockChannelReader<MemorySegment> reader = this.ioManager.createBlockChannelReader(channel);
	final ChannelReaderInputView inView = new ChannelReaderInputView(reader, memory, outView.getBlockCount(), true);
	generator.reset();
	
	// read and re-generate all records and compare them
	final Tuple2<Integer, String> readRec = new Tuple2<>();
	for (int i = 0; i < NUM_PAIRS_SHORT / 2; i++) {
		generator.next(rec);
		serializer.deserialize(readRec, inView);
		
		int k1 = rec.f0;
		String v1 = rec.f1;
		
		int k2 = readRec.f0;
		String v2 = readRec.f1;
		
		Assert.assertTrue("The re-generated and the read record do not match.", k1 == k2 && v1.equals(v2));
	}
	
	this.memoryManager.release(inView.close());
	reader.deleteChannel();
}
 
Example 17
Source Project: flink   File: ChannelViewsTest.java    License: Apache License 2.0 4 votes vote down vote up
@Test
public void testReadTooMany() throws Exception
{
	final TestData.TupleGenerator generator = new TestData.TupleGenerator(SEED, KEY_MAX, VALUE_SHORT_LENGTH, KeyMode.RANDOM, ValueMode.RANDOM_LENGTH);
	final FileIOChannel.ID channel = this.ioManager.createChannel();
	final TypeSerializer<Tuple2<Integer, String>> serializer = TestData.getIntStringTupleSerializer();
	
	// create the writer output view
	List<MemorySegment> memory = this.memoryManager.allocatePages(this.parentTask, NUM_MEMORY_SEGMENTS);
	final BlockChannelWriter<MemorySegment> writer = this.ioManager.createBlockChannelWriter(channel);
	final ChannelWriterOutputView outView = new ChannelWriterOutputView(writer, memory, MEMORY_PAGE_SIZE);

	// write a number of pairs
	final Tuple2<Integer, String> rec = new Tuple2<>();
	for (int i = 0; i < NUM_PAIRS_SHORT; i++) {
		generator.next(rec);
		serializer.serialize(rec, outView);
	}
	this.memoryManager.release(outView.close());

	// create the reader input view
	memory = this.memoryManager.allocatePages(this.parentTask, NUM_MEMORY_SEGMENTS);
	final BlockChannelReader<MemorySegment> reader = this.ioManager.createBlockChannelReader(channel);
	final ChannelReaderInputView inView = new ChannelReaderInputView(reader, memory, outView.getBlockCount(), true);
	generator.reset();

	// read and re-generate all records and compare them
	try {
		final Tuple2<Integer, String> readRec = new Tuple2<>();
		for (int i = 0; i < NUM_PAIRS_SHORT + 1; i++) {
			generator.next(rec);
			serializer.deserialize(readRec, inView);
			final int k1 = rec.f0;
			final String v1 = rec.f1;
			final int k2 = readRec.f0;
			final String v2 = readRec.f1;
			Assert.assertTrue("The re-generated and the read record do not match.", k1 == k2 && v1.equals(v2));
		}
		Assert.fail("Expected an EOFException which did not occur.");
	}
	catch (EOFException eofex) {
		// expected
	}
	catch (Throwable t) {
		// unexpected
		Assert.fail("Unexpected Exception: " + t.getMessage());
	}
	
	this.memoryManager.release(inView.close());
	reader.deleteChannel();
}
 
Example 18
Source Project: flink   File: ChannelViewsTest.java    License: Apache License 2.0 4 votes vote down vote up
@Test
public void testWriteReadSmallRecords() throws Exception
{
	final TestData.TupleGenerator generator = new TestData.TupleGenerator(SEED, KEY_MAX, VALUE_SHORT_LENGTH, KeyMode.RANDOM, ValueMode.RANDOM_LENGTH);
	final FileIOChannel.ID channel = this.ioManager.createChannel();
	final TypeSerializer<Tuple2<Integer, String>> serializer = TestData.getIntStringTupleSerializer();
	
	// create the writer output view
	List<MemorySegment> memory = this.memoryManager.allocatePages(this.parentTask, NUM_MEMORY_SEGMENTS);
	final BlockChannelWriter<MemorySegment> writer = this.ioManager.createBlockChannelWriter(channel);
	final ChannelWriterOutputView outView = new ChannelWriterOutputView(writer, memory, MEMORY_PAGE_SIZE);
	// write a number of pairs
	final Tuple2<Integer, String> rec = new Tuple2<>();
	for (int i = 0; i < NUM_PAIRS_SHORT; i++) {
		generator.next(rec);
		serializer.serialize(rec, outView);
	}
	this.memoryManager.release(outView.close());
	
	// create the reader input view
	memory = this.memoryManager.allocatePages(this.parentTask, NUM_MEMORY_SEGMENTS);
	final BlockChannelReader<MemorySegment> reader = this.ioManager.createBlockChannelReader(channel);
	final ChannelReaderInputView inView = new ChannelReaderInputView(reader, memory, outView.getBlockCount(), true);
	generator.reset();
	
	// read and re-generate all records and compare them
	final Tuple2<Integer, String> readRec = new Tuple2<>();
	for (int i = 0; i < NUM_PAIRS_SHORT; i++) {
		generator.next(rec);
		serializer.deserialize(readRec, inView);
		
		int k1 = rec.f0;
		String v1 = rec.f1;
		
		int k2 = readRec.f0;
		String v2 = readRec.f1;
		
		Assert.assertTrue("The re-generated and the read record do not match.", k1 == k2 && v1.equals(v2));
	}
	
	this.memoryManager.release(inView.close());
	reader.deleteChannel();
}
 
Example 19
Source Project: flink   File: NormalizedKeySorterTest.java    License: Apache License 2.0 4 votes vote down vote up
@Test
public void testSortLongStringKeys() throws Exception {
	final int numSegments = MEMORY_SIZE / MEMORY_PAGE_SIZE;
	final List<MemorySegment> memory = this.memoryManager.allocatePages(new DummyInvokable(), numSegments);
	
	@SuppressWarnings("unchecked")
	TypeComparator<Tuple2<Integer, String>> accessors = TestData.getIntStringTupleTypeInfo().createComparator(new int[]{1}, new boolean[]{true}, 0, null);
	NormalizedKeySorter<Tuple2<Integer, String>> sorter = new NormalizedKeySorter<>(TestData.getIntStringTupleSerializer(), accessors, memory);
	
	TestData.TupleGenerator generator = new TestData.TupleGenerator(SEED, KEY_MAX, VALUE_LENGTH, KeyMode.RANDOM,
		ValueMode.FIX_LENGTH);
	
	// write the records
	Tuple2<Integer, String> record = new Tuple2<>();
	do {
		generator.next(record);
	}
	while (sorter.write(record));
	
	QuickSort qs = new QuickSort();
	qs.sort(sorter);
	
	MutableObjectIterator<Tuple2<Integer, String>> iter = sorter.getIterator();
	Tuple2<Integer, String> readTarget = new Tuple2<>();
	
	iter.next(readTarget);
	String last = readTarget.f1;
	
	while ((readTarget = iter.next(readTarget)) != null) {
		String current = readTarget.f1;
		
		final int cmp = last.compareTo(current);
		if (cmp > 0) {
			Assert.fail("Next value is not larger or equal to previous value.");
		}
		
		last = current;
	}
	
	// release the memory occupied by the buffers
	sorter.dispose();
	this.memoryManager.release(memory);
}
 
Example 20
Source Project: flink   File: NormalizedKeySorterTest.java    License: Apache License 2.0 4 votes vote down vote up
private NormalizedKeySorter<Tuple2<Integer, String>> newSortBuffer(List<MemorySegment> memory) throws Exception
{
	return new NormalizedKeySorter<>(TestData.getIntStringTupleSerializer(), TestData.getIntStringTupleComparator(), memory);
}