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UserCountsPerRegionLambdaIntegrationTest.java
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UserCountsPerRegionLambdaIntegrationTest.java
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/*
* Copyright Confluent Inc.
*
* Licensed under the Apache License, Version 2.0 (the "License");
* you may not use this file except in compliance with the License.
* You may obtain a copy of the License at
*
* http://www.apache.org/licenses/LICENSE-2.0
*
* Unless required by applicable law or agreed to in writing, software
* distributed under the License is distributed on an "AS IS" BASIS,
* WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
* See the License for the specific language governing permissions and
* limitations under the License.
*/
package io.confluent.examples.streams;
import org.apache.kafka.common.serialization.LongDeserializer;
import org.apache.kafka.common.serialization.Serde;
import org.apache.kafka.common.serialization.Serdes;
import org.apache.kafka.common.serialization.StringDeserializer;
import org.apache.kafka.common.serialization.StringSerializer;
import org.apache.kafka.streams.KeyValue;
import org.apache.kafka.streams.StreamsBuilder;
import org.apache.kafka.streams.StreamsConfig;
import org.apache.kafka.streams.TestInputTopic;
import org.apache.kafka.streams.TestOutputTopic;
import org.apache.kafka.streams.TopologyTestDriver;
import org.apache.kafka.streams.kstream.KTable;
import org.apache.kafka.streams.kstream.Produced;
import org.apache.kafka.test.TestUtils;
import org.junit.Test;
import java.util.Arrays;
import java.util.List;
import java.util.Map;
import java.util.Properties;
import static io.confluent.examples.streams.IntegrationTestUtils.mkEntry;
import static io.confluent.examples.streams.IntegrationTestUtils.mkMap;
import static org.hamcrest.CoreMatchers.equalTo;
import static org.hamcrest.MatcherAssert.assertThat;
/**
* End-to-end integration test that demonstrates how aggregations on a KTable produce the expected
* results even though new data is continuously arriving in the KTable's input topic in Kafka.
* <p>
* The use case we implement is to continuously compute user counts per region based on location
* updates that are sent to a Kafka topic. What we want to achieve is to always have the
* latest and correct user counts per region even as users keep moving between regions while our
* stream processing application is running (imagine, for example, that we are tracking passengers
* on air planes). More concretely, whenever a new messages arrives in the Kafka input topic that
* indicates a user moved to a new region, we want the effect of 1) reducing the user's previous
* region by 1 count and 2) increasing the user's new region by 1 count.
* <p>
* You could use the code below, for example, to create a real-time heat map of the world where
* colors denote the current number of users in each area of the world.
* <p>
* This example is related but not equivalent to {@link UserRegionLambdaExample}.
* <p>
* Note: This example uses lambda expressions and thus works with Java 8+ only.
*/
public class UserCountsPerRegionLambdaIntegrationTest {
private static final String inputTopic = "input-topic";
private static final String outputTopic = "output-topic";
@Test
public void shouldCountUsersPerRegion() {
// Input: Region per user (multiple records allowed per user).
final List<KeyValue<String, String>> userRegionRecords = Arrays.asList(
// This first record for Alice tells us that she is currently in Asia.
new KeyValue<>("alice", "asia"),
// First record for Bob.
new KeyValue<>("bob", "europe"),
// This second record for Alice tells us that her latest location is Europe. Combining the
// information in this record with the previous record for Alice, we know that she has moved
// from Asia to Europe; in other words, it's a location update for Alice.
new KeyValue<>("alice", "europe"),
// Second record for Bob, who moved from Europe to Asia (i.e. the opposite direction of Alice).
new KeyValue<>("bob", "asia")
);
final Map<String, Long> expectedUsersPerRegion = mkMap(
mkEntry("europe", 1L), // in the end, Alice is in europe
mkEntry("asia", 1L) // in the end, Bob is in asia
);
//
// Step 1: Configure and start the processor topology.
//
final Serde<String> stringSerde = Serdes.String();
final Serde<Long> longSerde = Serdes.Long();
final Properties streamsConfiguration = new Properties();
streamsConfiguration.put(StreamsConfig.APPLICATION_ID_CONFIG, "user-regions-lambda-integration-test");
streamsConfiguration.put(StreamsConfig.BOOTSTRAP_SERVERS_CONFIG, "dummy config");
streamsConfiguration.put(StreamsConfig.DEFAULT_KEY_SERDE_CLASS_CONFIG, Serdes.String().getClass().getName());
streamsConfiguration.put(StreamsConfig.DEFAULT_VALUE_SERDE_CLASS_CONFIG, Serdes.String().getClass().getName());
// Use a temporary directory for storing state, which will be automatically removed after the test.
streamsConfiguration.put(StreamsConfig.STATE_DIR_CONFIG, TestUtils.tempDirectory().getAbsolutePath());
final StreamsBuilder builder = new StreamsBuilder();
final KTable<String, String> userRegionsTable = builder.table(inputTopic);
final KTable<String, Long> usersPerRegionTable = userRegionsTable
// no need to specify explicit serdes because the resulting key and value types match our default serde settings
.groupBy((userId, region) -> KeyValue.pair(region, region))
.count();
usersPerRegionTable.toStream().to(outputTopic, Produced.with(stringSerde, longSerde));
try (final TopologyTestDriver topologyTestDriver = new TopologyTestDriver(builder.build(), streamsConfiguration)) {
//
// Step 2: Setup input and output topics.
//
final TestInputTopic<String, String> input = topologyTestDriver
.createInputTopic(inputTopic,
new StringSerializer(),
new StringSerializer());
final TestOutputTopic<String, Long> output = topologyTestDriver
.createOutputTopic(outputTopic,
new StringDeserializer(),
new LongDeserializer());
//
// Step 3: Publish user-region information.
//
input.pipeKeyValueList(userRegionRecords);
//
// Step 4: Verify the application's output data.
//
assertThat(output.readKeyValuesToMap(), equalTo(expectedUsersPerRegion));
}
}
}