use of org.apache.kafka.test.MockApiProcessorSupplier in project kafka by apache.
the class KTableSourceTest method testSendingOldValue.
@Test
public void testSendingOldValue() {
final StreamsBuilder builder = new StreamsBuilder();
final String topic1 = "topic1";
@SuppressWarnings("unchecked") final KTableImpl<String, String, String> table1 = (KTableImpl<String, String, String>) builder.table(topic1, stringConsumed);
table1.enableSendingOldValues(true);
assertTrue(table1.sendingOldValueEnabled());
final MockApiProcessorSupplier<String, Integer, Void, Void> supplier = new MockApiProcessorSupplier<>();
final Topology topology = builder.build().addProcessor("proc1", supplier, table1.name);
try (final TopologyTestDriver driver = new TopologyTestDriver(topology, props)) {
final TestInputTopic<String, String> inputTopic1 = driver.createInputTopic(topic1, new StringSerializer(), new StringSerializer(), Instant.ofEpochMilli(0L), Duration.ZERO);
final MockApiProcessor<String, Integer, Void, Void> proc1 = supplier.theCapturedProcessor();
inputTopic1.pipeInput("A", "01", 10L);
inputTopic1.pipeInput("B", "01", 20L);
inputTopic1.pipeInput("C", "01", 15L);
proc1.checkAndClearProcessResult(new KeyValueTimestamp<>("A", new Change<>("01", null), 10), new KeyValueTimestamp<>("B", new Change<>("01", null), 20), new KeyValueTimestamp<>("C", new Change<>("01", null), 15));
inputTopic1.pipeInput("A", "02", 8L);
inputTopic1.pipeInput("B", "02", 22L);
proc1.checkAndClearProcessResult(new KeyValueTimestamp<>("A", new Change<>("02", "01"), 8), new KeyValueTimestamp<>("B", new Change<>("02", "01"), 22));
inputTopic1.pipeInput("A", "03", 12L);
proc1.checkAndClearProcessResult(new KeyValueTimestamp<>("A", new Change<>("03", "02"), 12));
inputTopic1.pipeInput("A", null, 15L);
inputTopic1.pipeInput("B", null, 20L);
proc1.checkAndClearProcessResult(new KeyValueTimestamp<>("A", new Change<>(null, "03"), 15), new KeyValueTimestamp<>("B", new Change<>(null, "02"), 20));
}
}
use of org.apache.kafka.test.MockApiProcessorSupplier in project kafka by apache.
the class KTableKTableOuterJoinTest method testNotSendingOldValue.
@Test
public void testNotSendingOldValue() {
final StreamsBuilder builder = new StreamsBuilder();
final int[] expectedKeys = new int[] { 0, 1, 2, 3 };
final KTable<Integer, String> table1;
final KTable<Integer, String> table2;
final KTable<Integer, String> joined;
final MockApiProcessorSupplier<Integer, String, Void, Void> supplier = new MockApiProcessorSupplier<>();
table1 = builder.table(topic1, consumed);
table2 = builder.table(topic2, consumed);
joined = table1.outerJoin(table2, MockValueJoiner.TOSTRING_JOINER);
final Topology topology = builder.build().addProcessor("proc", supplier, ((KTableImpl<?, ?, ?>) joined).name);
try (final TopologyTestDriver driver = new TopologyTestDriver(topology, props)) {
final TestInputTopic<Integer, String> inputTopic1 = driver.createInputTopic(topic1, Serdes.Integer().serializer(), Serdes.String().serializer(), Instant.ofEpochMilli(0L), Duration.ZERO);
final TestInputTopic<Integer, String> inputTopic2 = driver.createInputTopic(topic2, Serdes.Integer().serializer(), Serdes.String().serializer(), Instant.ofEpochMilli(0L), Duration.ZERO);
final MockApiProcessor<Integer, String, Void, Void> proc = supplier.theCapturedProcessor();
assertTrue(((KTableImpl<?, ?, ?>) table1).sendingOldValueEnabled());
assertTrue(((KTableImpl<?, ?, ?>) table2).sendingOldValueEnabled());
assertFalse(((KTableImpl<?, ?, ?>) joined).sendingOldValueEnabled());
// push two items to the primary stream. the other table is empty
for (int i = 0; i < 2; i++) {
inputTopic1.pipeInput(expectedKeys[i], "X" + expectedKeys[i], 5L + i);
}
// pass tuple with null key, it will be discarded in join process
inputTopic1.pipeInput(null, "SomeVal", 42L);
// left: X0:0 (ts: 5), X1:1 (ts: 6)
// right:
proc.checkAndClearProcessResult(new KeyValueTimestamp<>(0, new Change<>("X0+null", null), 5), new KeyValueTimestamp<>(1, new Change<>("X1+null", null), 6));
// push two items to the other stream. this should produce two items.
for (int i = 0; i < 2; i++) {
inputTopic2.pipeInput(expectedKeys[i], "Y" + expectedKeys[i], 10L * i);
}
// pass tuple with null key, it will be discarded in join process
inputTopic2.pipeInput(null, "AnotherVal", 73L);
// left: X0:0 (ts: 5), X1:1 (ts: 6)
// right: Y0:0 (ts: 0), Y1:1 (ts: 10)
proc.checkAndClearProcessResult(new KeyValueTimestamp<>(0, new Change<>("X0+Y0", null), 5), new KeyValueTimestamp<>(1, new Change<>("X1+Y1", null), 10));
// push all four items to the primary stream. this should produce four items.
for (final int expectedKey : expectedKeys) {
inputTopic1.pipeInput(expectedKey, "XX" + expectedKey, 7L);
}
// left: XX0:0 (ts: 7), XX1:1 (ts: 7), XX2:2 (ts: 7), XX3:3 (ts: 7)
// right: Y0:0 (ts: 0), Y1:1 (ts: 10)
proc.checkAndClearProcessResult(new KeyValueTimestamp<>(0, new Change<>("XX0+Y0", null), 7), new KeyValueTimestamp<>(1, new Change<>("XX1+Y1", null), 10), new KeyValueTimestamp<>(2, new Change<>("XX2+null", null), 7), new KeyValueTimestamp<>(3, new Change<>("XX3+null", null), 7));
// push all items to the other stream. this should produce four items.
for (final int expectedKey : expectedKeys) {
inputTopic2.pipeInput(expectedKey, "YY" + expectedKey, expectedKey * 5L);
}
// left: XX0:0 (ts: 7), XX1:1 (ts: 7), XX2:2 (ts: 7), XX3:3 (ts: 7)
// right: YY0:0 (ts: 0), YY1:1 (ts: 5), YY2:2 (ts: 10), YY3:3 (ts: 15)
proc.checkAndClearProcessResult(new KeyValueTimestamp<>(0, new Change<>("XX0+YY0", null), 7), new KeyValueTimestamp<>(1, new Change<>("XX1+YY1", null), 7), new KeyValueTimestamp<>(2, new Change<>("XX2+YY2", null), 10), new KeyValueTimestamp<>(3, new Change<>("XX3+YY3", null), 15));
// push all four items to the primary stream. this should produce four items.
for (final int expectedKey : expectedKeys) {
inputTopic1.pipeInput(expectedKey, "XXX" + expectedKey, 6L);
}
// left: XXX0:0 (ts: 6), XXX1:1 (ts: 6), XXX2:2 (ts: 6), XXX3:3 (ts: 6)
// right: YY0:0 (ts: 0), YY1:1 (ts: 5), YY2:2 (ts: 10), YY3:3 (ts: 15)
proc.checkAndClearProcessResult(new KeyValueTimestamp<>(0, new Change<>("XXX0+YY0", null), 6), new KeyValueTimestamp<>(1, new Change<>("XXX1+YY1", null), 6), new KeyValueTimestamp<>(2, new Change<>("XXX2+YY2", null), 10), new KeyValueTimestamp<>(3, new Change<>("XXX3+YY3", null), 15));
// push two items with null to the other stream as deletes. this should produce two item.
inputTopic2.pipeInput(expectedKeys[0], null, 5L);
inputTopic2.pipeInput(expectedKeys[1], null, 7L);
// left: XXX0:0 (ts: 6), XXX1:1 (ts: 6), XXX2:2 (ts: 6), XXX3:3 (ts: 6)
// right: YY2:2 (ts: 10), YY3:3 (ts: 15)
proc.checkAndClearProcessResult(new KeyValueTimestamp<>(0, new Change<>("XXX0+null", null), 6), new KeyValueTimestamp<>(1, new Change<>("XXX1+null", null), 7));
// push all four items to the primary stream. this should produce four items.
for (final int expectedKey : expectedKeys) {
inputTopic1.pipeInput(expectedKey, "XXXX" + expectedKey, 13L);
}
// left: XXXX0:0 (ts: 13), XXXX1:1 (ts: 13), XXXX2:2 (ts: 13), XXXX3:3 (ts: 13)
// right: YY2:2 (ts: 10), YY3:3 (ts: 15)
proc.checkAndClearProcessResult(new KeyValueTimestamp<>(0, new Change<>("XXXX0+null", null), 13), new KeyValueTimestamp<>(1, new Change<>("XXXX1+null", null), 13), new KeyValueTimestamp<>(2, new Change<>("XXXX2+YY2", null), 13), new KeyValueTimestamp<>(3, new Change<>("XXXX3+YY3", null), 15));
// push four items to the primary stream with null. this should produce four items.
inputTopic1.pipeInput(expectedKeys[0], null, 0L);
inputTopic1.pipeInput(expectedKeys[1], null, 42L);
inputTopic1.pipeInput(expectedKeys[2], null, 5L);
inputTopic1.pipeInput(expectedKeys[3], null, 20L);
// left:
// right: YY2:2 (ts: 10), YY3:3 (ts: 15)
proc.checkAndClearProcessResult(new KeyValueTimestamp<>(0, new Change<>(null, null), 0), new KeyValueTimestamp<>(1, new Change<>(null, null), 42), new KeyValueTimestamp<>(2, new Change<>("null+YY2", null), 10), new KeyValueTimestamp<>(3, new Change<>("null+YY3", null), 20));
}
}
use of org.apache.kafka.test.MockApiProcessorSupplier in project kafka by apache.
the class KTableKTableOuterJoinTest method testSendingOldValue.
@Test
public void testSendingOldValue() {
final StreamsBuilder builder = new StreamsBuilder();
final int[] expectedKeys = new int[] { 0, 1, 2, 3 };
final KTable<Integer, String> table1;
final KTable<Integer, String> table2;
final KTable<Integer, String> joined;
final MockApiProcessorSupplier<Integer, String, Void, Void> supplier = new MockApiProcessorSupplier<>();
table1 = builder.table(topic1, consumed);
table2 = builder.table(topic2, consumed);
joined = table1.outerJoin(table2, MockValueJoiner.TOSTRING_JOINER);
((KTableImpl<?, ?, ?>) joined).enableSendingOldValues(true);
final Topology topology = builder.build().addProcessor("proc", supplier, ((KTableImpl<?, ?, ?>) joined).name);
try (final TopologyTestDriver driver = new TopologyTestDriver(topology, props)) {
final TestInputTopic<Integer, String> inputTopic1 = driver.createInputTopic(topic1, Serdes.Integer().serializer(), Serdes.String().serializer(), Instant.ofEpochMilli(0L), Duration.ZERO);
final TestInputTopic<Integer, String> inputTopic2 = driver.createInputTopic(topic2, Serdes.Integer().serializer(), Serdes.String().serializer(), Instant.ofEpochMilli(0L), Duration.ZERO);
final MockApiProcessor<Integer, String, Void, Void> proc = supplier.theCapturedProcessor();
assertTrue(((KTableImpl<?, ?, ?>) table1).sendingOldValueEnabled());
assertTrue(((KTableImpl<?, ?, ?>) table2).sendingOldValueEnabled());
assertTrue(((KTableImpl<?, ?, ?>) joined).sendingOldValueEnabled());
// push two items to the primary stream. the other table is empty
for (int i = 0; i < 2; i++) {
inputTopic1.pipeInput(expectedKeys[i], "X" + expectedKeys[i], 5L + i);
}
// pass tuple with null key, it will be discarded in join process
inputTopic1.pipeInput(null, "SomeVal", 42L);
// left: X0:0 (ts: 5), X1:1 (ts: 6)
// right:
proc.checkAndClearProcessResult(new KeyValueTimestamp<>(0, new Change<>("X0+null", null), 5), new KeyValueTimestamp<>(1, new Change<>("X1+null", null), 6));
// push two items to the other stream. this should produce two items.
for (int i = 0; i < 2; i++) {
inputTopic2.pipeInput(expectedKeys[i], "Y" + expectedKeys[i], 10L * i);
}
// pass tuple with null key, it will be discarded in join process
inputTopic2.pipeInput(null, "AnotherVal", 73L);
// left: X0:0 (ts: 5), X1:1 (ts: 6)
// right: Y0:0 (ts: 0), Y1:1 (ts: 10)
proc.checkAndClearProcessResult(new KeyValueTimestamp<>(0, new Change<>("X0+Y0", "X0+null"), 5), new KeyValueTimestamp<>(1, new Change<>("X1+Y1", "X1+null"), 10));
// push all four items to the primary stream. this should produce four items.
for (final int expectedKey : expectedKeys) {
inputTopic1.pipeInput(expectedKey, "XX" + expectedKey, 7L);
}
// left: XX0:0 (ts: 7), XX1:1 (ts: 7), XX2:2 (ts: 7), XX3:3 (ts: 7)
// right: Y0:0 (ts: 0), Y1:1 (ts: 10)
proc.checkAndClearProcessResult(new KeyValueTimestamp<>(0, new Change<>("XX0+Y0", "X0+Y0"), 7), new KeyValueTimestamp<>(1, new Change<>("XX1+Y1", "X1+Y1"), 10), new KeyValueTimestamp<>(2, new Change<>("XX2+null", null), 7), new KeyValueTimestamp<>(3, new Change<>("XX3+null", null), 7));
// push all items to the other stream. this should produce four items.
for (final int expectedKey : expectedKeys) {
inputTopic2.pipeInput(expectedKey, "YY" + expectedKey, expectedKey * 5L);
}
// left: XX0:0 (ts: 7), XX1:1 (ts: 7), XX2:2 (ts: 7), XX3:3 (ts: 7)
// right: YY0:0 (ts: 0), YY1:1 (ts: 5), YY2:2 (ts: 10), YY3:3 (ts: 15)
proc.checkAndClearProcessResult(new KeyValueTimestamp<>(0, new Change<>("XX0+YY0", "XX0+Y0"), 7), new KeyValueTimestamp<>(1, new Change<>("XX1+YY1", "XX1+Y1"), 7), new KeyValueTimestamp<>(2, new Change<>("XX2+YY2", "XX2+null"), 10), new KeyValueTimestamp<>(3, new Change<>("XX3+YY3", "XX3+null"), 15));
// push all four items to the primary stream. this should produce four items.
for (final int expectedKey : expectedKeys) {
inputTopic1.pipeInput(expectedKey, "XXX" + expectedKey, 6L);
}
// left: XXX0:0 (ts: 6), XXX1:1 (ts: 6), XXX2:2 (ts: 6), XXX3:3 (ts: 6)
// right: YY0:0 (ts: 0), YY1:1 (ts: 5), YY2:2 (ts: 10), YY3:3 (ts: 15)
proc.checkAndClearProcessResult(new KeyValueTimestamp<>(0, new Change<>("XXX0+YY0", "XX0+YY0"), 6), new KeyValueTimestamp<>(1, new Change<>("XXX1+YY1", "XX1+YY1"), 6), new KeyValueTimestamp<>(2, new Change<>("XXX2+YY2", "XX2+YY2"), 10), new KeyValueTimestamp<>(3, new Change<>("XXX3+YY3", "XX3+YY3"), 15));
// push two items with null to the other stream as deletes. this should produce two item.
inputTopic2.pipeInput(expectedKeys[0], null, 5L);
inputTopic2.pipeInput(expectedKeys[1], null, 7L);
// left: XXX0:0 (ts: 6), XXX1:1 (ts: 6), XXX2:2 (ts: 6), XXX3:3 (ts: 6)
// right: YY2:2 (ts: 10), YY3:3 (ts: 15)
proc.checkAndClearProcessResult(new KeyValueTimestamp<>(0, new Change<>("XXX0+null", "XXX0+YY0"), 6), new KeyValueTimestamp<>(1, new Change<>("XXX1+null", "XXX1+YY1"), 7));
// push all four items to the primary stream. this should produce four items.
for (final int expectedKey : expectedKeys) {
inputTopic1.pipeInput(expectedKey, "XXXX" + expectedKey, 13L);
}
// left: XXXX0:0 (ts: 13), XXXX1:1 (ts: 13), XXXX2:2 (ts: 13), XXXX3:3 (ts: 13)
// right: YY2:2 (ts: 10), YY3:3 (ts: 15)
proc.checkAndClearProcessResult(new KeyValueTimestamp<>(0, new Change<>("XXXX0+null", "XXX0+null"), 13), new KeyValueTimestamp<>(1, new Change<>("XXXX1+null", "XXX1+null"), 13), new KeyValueTimestamp<>(2, new Change<>("XXXX2+YY2", "XXX2+YY2"), 13), new KeyValueTimestamp<>(3, new Change<>("XXXX3+YY3", "XXX3+YY3"), 15));
// push four items to the primary stream with null. this should produce four items.
inputTopic1.pipeInput(expectedKeys[0], null, 0L);
inputTopic1.pipeInput(expectedKeys[1], null, 42L);
inputTopic1.pipeInput(expectedKeys[2], null, 5L);
inputTopic1.pipeInput(expectedKeys[3], null, 20L);
// left:
// right: YY2:2 (ts: 10), YY3:3 (ts: 15)
proc.checkAndClearProcessResult(new KeyValueTimestamp<>(0, new Change<>(null, "XXXX0+null"), 0), new KeyValueTimestamp<>(1, new Change<>(null, "XXXX1+null"), 42), new KeyValueTimestamp<>(2, new Change<>("null+YY2", "XXXX2+YY2"), 10), new KeyValueTimestamp<>(3, new Change<>("null+YY3", "XXXX3+YY3"), 20));
}
}
use of org.apache.kafka.test.MockApiProcessorSupplier in project kafka by apache.
the class SessionWindowedKStreamImplTest method shouldCountSessionWindowed.
private void shouldCountSessionWindowed() {
final MockApiProcessorSupplier<Windowed<String>, Long, Void, Void> supplier = new MockApiProcessorSupplier<>();
stream.count().toStream().process(supplier);
try (final TopologyTestDriver driver = new TopologyTestDriver(builder.build(), props)) {
processData(driver);
}
final Map<Windowed<String>, ValueAndTimestamp<Long>> result = supplier.theCapturedProcessor().lastValueAndTimestampPerKey();
assertThat(result.size(), equalTo(3));
assertThat(result.get(new Windowed<>("1", new SessionWindow(10L, 15L))), equalTo(ValueAndTimestamp.make(2L, 15L)));
assertThat(result.get(new Windowed<>("2", new SessionWindow(599L, 600L))), equalTo(ValueAndTimestamp.make(2L, 600L)));
assertThat(result.get(new Windowed<>("1", new SessionWindow(600L, 600L))), equalTo(ValueAndTimestamp.make(1L, 600L)));
}
use of org.apache.kafka.test.MockApiProcessorSupplier in project kafka by apache.
the class SlidingWindowedKStreamImplTest method shouldReduceSlidingWindows.
@Test
public void shouldReduceSlidingWindows() {
final MockApiProcessorSupplier<Windowed<String>, String, Void, Void> supplier = new MockApiProcessorSupplier<>();
windowedStream.reduce(MockReducer.STRING_ADDER).toStream().process(supplier);
try (final TopologyTestDriver driver = new TopologyTestDriver(builder.build(), props)) {
processData(driver);
}
assertThat(supplier.theCapturedProcessor().lastValueAndTimestampPerKey().get(new Windowed<>("1", new TimeWindow(0L, 100L))), equalTo(ValueAndTimestamp.make("1", 100L)));
assertThat(supplier.theCapturedProcessor().lastValueAndTimestampPerKey().get(new Windowed<>("1", new TimeWindow(101L, 201L))), equalTo(ValueAndTimestamp.make("2", 150L)));
assertThat(supplier.theCapturedProcessor().lastValueAndTimestampPerKey().get(new Windowed<>("1", new TimeWindow(50L, 150L))), equalTo(ValueAndTimestamp.make("1+2", 150L)));
assertThat(supplier.theCapturedProcessor().lastValueAndTimestampPerKey().get(new Windowed<>("1", new TimeWindow(400L, 500L))), equalTo(ValueAndTimestamp.make("3", 500L)));
assertThat(supplier.theCapturedProcessor().lastValueAndTimestampPerKey().get(new Windowed<>("2", new TimeWindow(100L, 200L))), equalTo(ValueAndTimestamp.make("10+20", 200L)));
assertThat(supplier.theCapturedProcessor().lastValueAndTimestampPerKey().get(new Windowed<>("2", new TimeWindow(50L, 150L))), equalTo(ValueAndTimestamp.make("20", 150L)));
assertThat(supplier.theCapturedProcessor().lastValueAndTimestampPerKey().get(new Windowed<>("2", new TimeWindow(151L, 251L))), equalTo(ValueAndTimestamp.make("10", 200L)));
}
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