Java Code Examples for org.apache.flink.runtime.operators.testutils.TestData#getIntStringTupleReader()
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org.apache.flink.runtime.operators.testutils.TestData#getIntStringTupleReader() .
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Example 1
| Source File: CombiningUnilateralSortMergerITCase.java From Flink-CEPplus with Apache License 2.0 | 4 votes |
|
@Test
public void testSortAndValidate() throws Exception
{
final Hashtable<Integer, Integer> countTable = new Hashtable<>(KEY_MAX);
for (int i = 1; i <= KEY_MAX; i++) {
countTable.put(i, 0);
}
// comparator
final TypeComparator<Integer> keyComparator = new IntComparator(true);
// reader
TestData.MockTuple2Reader<Tuple2<Integer, String>> reader = TestData.getIntStringTupleReader();
// merge iterator
LOG.debug("initializing sortmerger");
TestCountCombiner2 comb = new TestCountCombiner2();
Sorter<Tuple2<Integer, String>> merger = new CombiningUnilateralSortMerger<>(comb,
this.memoryManager, this.ioManager, reader, this.parentTask, this.serializerFactory1, this.comparator1,
0.25, 2, 0.7f, true /* use large record handler */, false);
// emit data
LOG.debug("emitting data");
TestData.TupleGenerator generator = new TestData.TupleGenerator(SEED, KEY_MAX, VALUE_LENGTH, KeyMode.RANDOM, ValueMode.FIX_LENGTH);
Tuple2<Integer, String> rec = new Tuple2<>();
for (int i = 0; i < NUM_PAIRS; i++) {
Assert.assertTrue((rec = generator.next(rec)) != null);
final Integer key = rec.f0;
rec.setField("1", 1);
reader.emit(rec);
countTable.put(key, countTable.get(key) + 1);
}
reader.close();
// check order
MutableObjectIterator<Tuple2<Integer, String>> iterator = merger.getIterator();
LOG.debug("checking results");
Tuple2<Integer, String> rec1 = new Tuple2<>();
Tuple2<Integer, String> rec2 = new Tuple2<>();
Assert.assertTrue((rec1 = iterator.next(rec1)) != null);
countTable.put(rec1.f0, countTable.get(rec1.f0) - (Integer.parseInt(rec1.f1)));
while ((rec2 = iterator.next(rec2)) != null) {
int k1 = rec1.f0;
int k2 = rec2.f0;
Assert.assertTrue(keyComparator.compare(k1, k2) <= 0);
countTable.put(k2, countTable.get(k2) - (Integer.parseInt(rec2.f1)));
rec1 = rec2;
}
for (Integer cnt : countTable.values()) {
Assert.assertTrue(cnt == 0);
}
merger.close();
// if the combiner was opened, it must have been closed
Assert.assertTrue(comb.opened == comb.closed);
}
Example 2
| Source File: CombiningUnilateralSortMergerITCase.java From flink with Apache License 2.0 | 4 votes |
|
@Test
public void testSortAndValidate() throws Exception
{
final Hashtable<Integer, Integer> countTable = new Hashtable<>(KEY_MAX);
for (int i = 1; i <= KEY_MAX; i++) {
countTable.put(i, 0);
}
// comparator
final TypeComparator<Integer> keyComparator = new IntComparator(true);
// reader
TestData.MockTuple2Reader<Tuple2<Integer, String>> reader = TestData.getIntStringTupleReader();
// merge iterator
LOG.debug("initializing sortmerger");
TestCountCombiner2 comb = new TestCountCombiner2();
Sorter<Tuple2<Integer, String>> merger = new CombiningUnilateralSortMerger<>(comb,
this.memoryManager, this.ioManager, reader, this.parentTask, this.serializerFactory1, this.comparator1,
0.25, 2, 0.7f, true /* use large record handler */, false);
// emit data
LOG.debug("emitting data");
TestData.TupleGenerator generator = new TestData.TupleGenerator(SEED, KEY_MAX, VALUE_LENGTH, KeyMode.RANDOM, ValueMode.FIX_LENGTH);
Tuple2<Integer, String> rec = new Tuple2<>();
for (int i = 0; i < NUM_PAIRS; i++) {
Assert.assertTrue((rec = generator.next(rec)) != null);
final Integer key = rec.f0;
rec.setField("1", 1);
reader.emit(rec);
countTable.put(key, countTable.get(key) + 1);
}
reader.close();
// check order
MutableObjectIterator<Tuple2<Integer, String>> iterator = merger.getIterator();
LOG.debug("checking results");
Tuple2<Integer, String> rec1 = new Tuple2<>();
Tuple2<Integer, String> rec2 = new Tuple2<>();
Assert.assertTrue((rec1 = iterator.next(rec1)) != null);
countTable.put(rec1.f0, countTable.get(rec1.f0) - (Integer.parseInt(rec1.f1)));
while ((rec2 = iterator.next(rec2)) != null) {
int k1 = rec1.f0;
int k2 = rec2.f0;
Assert.assertTrue(keyComparator.compare(k1, k2) <= 0);
countTable.put(k2, countTable.get(k2) - (Integer.parseInt(rec2.f1)));
rec1 = rec2;
}
for (Integer cnt : countTable.values()) {
Assert.assertTrue(cnt == 0);
}
merger.close();
// if the combiner was opened, it must have been closed
Assert.assertTrue(comb.opened == comb.closed);
}
Example 3
| Source File: CombiningUnilateralSortMergerITCase.java From flink with Apache License 2.0 | 4 votes |
|
@Test
public void testSortAndValidate() throws Exception
{
final Hashtable<Integer, Integer> countTable = new Hashtable<>(KEY_MAX);
for (int i = 1; i <= KEY_MAX; i++) {
countTable.put(i, 0);
}
// comparator
final TypeComparator<Integer> keyComparator = new IntComparator(true);
// reader
TestData.MockTuple2Reader<Tuple2<Integer, String>> reader = TestData.getIntStringTupleReader();
// merge iterator
LOG.debug("initializing sortmerger");
TestCountCombiner2 comb = new TestCountCombiner2();
Sorter<Tuple2<Integer, String>> merger = new CombiningUnilateralSortMerger<>(comb,
this.memoryManager, this.ioManager, reader, this.parentTask, this.serializerFactory1, this.comparator1,
0.25, 2, 0.7f, true /* use large record handler */, false);
// emit data
LOG.debug("emitting data");
TestData.TupleGenerator generator = new TestData.TupleGenerator(SEED, KEY_MAX, VALUE_LENGTH, KeyMode.RANDOM, ValueMode.FIX_LENGTH);
Tuple2<Integer, String> rec = new Tuple2<>();
for (int i = 0; i < NUM_PAIRS; i++) {
Assert.assertTrue((rec = generator.next(rec)) != null);
final Integer key = rec.f0;
rec.setField("1", 1);
reader.emit(rec);
countTable.put(key, countTable.get(key) + 1);
}
reader.close();
// check order
MutableObjectIterator<Tuple2<Integer, String>> iterator = merger.getIterator();
LOG.debug("checking results");
Tuple2<Integer, String> rec1 = new Tuple2<>();
Tuple2<Integer, String> rec2 = new Tuple2<>();
Assert.assertTrue((rec1 = iterator.next(rec1)) != null);
countTable.put(rec1.f0, countTable.get(rec1.f0) - (Integer.parseInt(rec1.f1)));
while ((rec2 = iterator.next(rec2)) != null) {
int k1 = rec1.f0;
int k2 = rec2.f0;
Assert.assertTrue(keyComparator.compare(k1, k2) <= 0);
countTable.put(k2, countTable.get(k2) - (Integer.parseInt(rec2.f1)));
rec1 = rec2;
}
for (Integer cnt : countTable.values()) {
Assert.assertTrue(cnt == 0);
}
merger.close();
// if the combiner was opened, it must have been closed
Assert.assertTrue(comb.opened == comb.closed);
}
