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@Test public void testCloseIsIdempotent() throws Exception { streams.close(); final int closeCount = MockMetricsReporter.CLOSE_COUNT.get(); streams.close(); Assert.assertEquals("subsequent close() calls should do nothing", closeCount, MockMetricsReporter.CLOSE_COUNT.get()); }
public void close() { close(DEFAULT_CLOSE_TIMEOUT, TimeUnit.SECONDS); }
KafkaStreams { public void close() { close(DEFAULT_CLOSE_TIMEOUT, TimeUnit.SECONDS); } }
KafkaStreams { public void close() { close(DEFAULT_CLOSE_TIMEOUT, TimeUnit.SECONDS); } KafkaStreams(final TopologyBuilder builder, final Properties props); KafkaStreams(final TopologyBuilder builder, final StreamsConfig config); KafkaStreams(final TopologyBuilder builder, final StreamsConfig c...
KafkaStreams { public void close() { close(DEFAULT_CLOSE_TIMEOUT, TimeUnit.SECONDS); } KafkaStreams(final TopologyBuilder builder, final Properties props); KafkaStreams(final TopologyBuilder builder, final StreamsConfig config); KafkaStreams(final TopologyBuilder builder, final StreamsConfig c...
KafkaStreams { public void close() { close(DEFAULT_CLOSE_TIMEOUT, TimeUnit.SECONDS); } KafkaStreams(final TopologyBuilder builder, final Properties props); KafkaStreams(final TopologyBuilder builder, final StreamsConfig config); KafkaStreams(final TopologyBuilder builder, final StreamsConfig c...
@Test(expected = ConfigException.class) public void testConfigInvalidTargetType() { TimestampConverter<SourceRecord> xform = new TimestampConverter.Value<>(); xform.configure(Collections.singletonMap(TimestampConverter.TARGET_TYPE_CONFIG, "invalid")); }
@Override public void configure(Map<String, ?> configs) { final SimpleConfig simpleConfig = new SimpleConfig(CONFIG_DEF, configs); final String field = simpleConfig.getString(FIELD_CONFIG); final String type = simpleConfig.getString(TARGET_TYPE_CONFIG); String formatPattern = simpleConfig.getString(FORMAT_CONFIG); sche...
TimestampConverter implements Transformation<R> { @Override public void configure(Map<String, ?> configs) { final SimpleConfig simpleConfig = new SimpleConfig(CONFIG_DEF, configs); final String field = simpleConfig.getString(FIELD_CONFIG); final String type = simpleConfig.getString(TARGET_TYPE_CONFIG); String formatPat...
TimestampConverter implements Transformation<R> { @Override public void configure(Map<String, ?> configs) { final SimpleConfig simpleConfig = new SimpleConfig(CONFIG_DEF, configs); final String field = simpleConfig.getString(FIELD_CONFIG); final String type = simpleConfig.getString(TARGET_TYPE_CONFIG); String formatPat...
TimestampConverter implements Transformation<R> { @Override public void configure(Map<String, ?> configs) { final SimpleConfig simpleConfig = new SimpleConfig(CONFIG_DEF, configs); final String field = simpleConfig.getString(FIELD_CONFIG); final String type = simpleConfig.getString(TARGET_TYPE_CONFIG); String formatPat...
TimestampConverter implements Transformation<R> { @Override public void configure(Map<String, ?> configs) { final SimpleConfig simpleConfig = new SimpleConfig(CONFIG_DEF, configs); final String field = simpleConfig.getString(FIELD_CONFIG); final String type = simpleConfig.getString(TARGET_TYPE_CONFIG); String formatPat...
@Test public void testNumberDefaultMetrics() { final KafkaStreams streams = createKafkaStreams(); final Map<MetricName, ? extends Metric> metrics = streams.metrics(); assertEquals(metrics.size(), 16); }
public Map<MetricName, ? extends Metric> metrics() { return Collections.unmodifiableMap(metrics.metrics()); }
KafkaStreams { public Map<MetricName, ? extends Metric> metrics() { return Collections.unmodifiableMap(metrics.metrics()); } }
KafkaStreams { public Map<MetricName, ? extends Metric> metrics() { return Collections.unmodifiableMap(metrics.metrics()); } KafkaStreams(final TopologyBuilder builder, final Properties props); KafkaStreams(final TopologyBuilder builder, final StreamsConfig config); KafkaStreams(final TopologyBuilder builder, ...
KafkaStreams { public Map<MetricName, ? extends Metric> metrics() { return Collections.unmodifiableMap(metrics.metrics()); } KafkaStreams(final TopologyBuilder builder, final Properties props); KafkaStreams(final TopologyBuilder builder, final StreamsConfig config); KafkaStreams(final TopologyBuilder builder, ...
KafkaStreams { public Map<MetricName, ? extends Metric> metrics() { return Collections.unmodifiableMap(metrics.metrics()); } KafkaStreams(final TopologyBuilder builder, final Properties props); KafkaStreams(final TopologyBuilder builder, final StreamsConfig config); KafkaStreams(final TopologyBuilder builder, ...
@Test(expected = IllegalStateException.class) public void shouldNotGetAllTasksWhenNotRunning() throws Exception { streams.allMetadata(); }
public Collection<StreamsMetadata> allMetadata() { validateIsRunning(); return streamsMetadataState.getAllMetadata(); }
KafkaStreams { public Collection<StreamsMetadata> allMetadata() { validateIsRunning(); return streamsMetadataState.getAllMetadata(); } }
KafkaStreams { public Collection<StreamsMetadata> allMetadata() { validateIsRunning(); return streamsMetadataState.getAllMetadata(); } KafkaStreams(final TopologyBuilder builder, final Properties props); KafkaStreams(final TopologyBuilder builder, final StreamsConfig config); KafkaStreams(final TopologyBuilder builde...
KafkaStreams { public Collection<StreamsMetadata> allMetadata() { validateIsRunning(); return streamsMetadataState.getAllMetadata(); } KafkaStreams(final TopologyBuilder builder, final Properties props); KafkaStreams(final TopologyBuilder builder, final StreamsConfig config); KafkaStreams(final TopologyBuilder builde...
KafkaStreams { public Collection<StreamsMetadata> allMetadata() { validateIsRunning(); return streamsMetadataState.getAllMetadata(); } KafkaStreams(final TopologyBuilder builder, final Properties props); KafkaStreams(final TopologyBuilder builder, final StreamsConfig config); KafkaStreams(final TopologyBuilder builde...
@Test(expected = IllegalStateException.class) public void shouldNotGetAllTasksWithStoreWhenNotRunning() throws Exception { streams.allMetadataForStore("store"); }
public Collection<StreamsMetadata> allMetadataForStore(final String storeName) { validateIsRunning(); return streamsMetadataState.getAllMetadataForStore(storeName); }
KafkaStreams { public Collection<StreamsMetadata> allMetadataForStore(final String storeName) { validateIsRunning(); return streamsMetadataState.getAllMetadataForStore(storeName); } }
KafkaStreams { public Collection<StreamsMetadata> allMetadataForStore(final String storeName) { validateIsRunning(); return streamsMetadataState.getAllMetadataForStore(storeName); } KafkaStreams(final TopologyBuilder builder, final Properties props); KafkaStreams(final TopologyBuilder builder, final StreamsConfig conf...
KafkaStreams { public Collection<StreamsMetadata> allMetadataForStore(final String storeName) { validateIsRunning(); return streamsMetadataState.getAllMetadataForStore(storeName); } KafkaStreams(final TopologyBuilder builder, final Properties props); KafkaStreams(final TopologyBuilder builder, final StreamsConfig conf...
KafkaStreams { public Collection<StreamsMetadata> allMetadataForStore(final String storeName) { validateIsRunning(); return streamsMetadataState.getAllMetadataForStore(storeName); } KafkaStreams(final TopologyBuilder builder, final Properties props); KafkaStreams(final TopologyBuilder builder, final StreamsConfig conf...
@Test(expected = IllegalStateException.class) public void shouldNotGetTaskWithKeyAndSerializerWhenNotRunning() throws Exception { streams.metadataForKey("store", "key", Serdes.String().serializer()); }
public <K> StreamsMetadata metadataForKey(final String storeName, final K key, final Serializer<K> keySerializer) { validateIsRunning(); return streamsMetadataState.getMetadataWithKey(storeName, key, keySerializer); }
KafkaStreams { public <K> StreamsMetadata metadataForKey(final String storeName, final K key, final Serializer<K> keySerializer) { validateIsRunning(); return streamsMetadataState.getMetadataWithKey(storeName, key, keySerializer); } }
KafkaStreams { public <K> StreamsMetadata metadataForKey(final String storeName, final K key, final Serializer<K> keySerializer) { validateIsRunning(); return streamsMetadataState.getMetadataWithKey(storeName, key, keySerializer); } KafkaStreams(final TopologyBuilder builder, final Properties props); KafkaStreams(fina...
KafkaStreams { public <K> StreamsMetadata metadataForKey(final String storeName, final K key, final Serializer<K> keySerializer) { validateIsRunning(); return streamsMetadataState.getMetadataWithKey(storeName, key, keySerializer); } KafkaStreams(final TopologyBuilder builder, final Properties props); KafkaStreams(fina...
KafkaStreams { public <K> StreamsMetadata metadataForKey(final String storeName, final K key, final Serializer<K> keySerializer) { validateIsRunning(); return streamsMetadataState.getMetadataWithKey(storeName, key, keySerializer); } KafkaStreams(final TopologyBuilder builder, final Properties props); KafkaStreams(fina...
@Test(expected = IllegalStateException.class) public void shouldNotGetTaskWithKeyAndPartitionerWhenNotRunning() throws Exception { streams.metadataForKey("store", "key", new StreamPartitioner<String, Object>() { @Override public Integer partition(final String key, final Object value, final int numPartitions) { return 0...
public <K> StreamsMetadata metadataForKey(final String storeName, final K key, final Serializer<K> keySerializer) { validateIsRunning(); return streamsMetadataState.getMetadataWithKey(storeName, key, keySerializer); }
KafkaStreams { public <K> StreamsMetadata metadataForKey(final String storeName, final K key, final Serializer<K> keySerializer) { validateIsRunning(); return streamsMetadataState.getMetadataWithKey(storeName, key, keySerializer); } }
KafkaStreams { public <K> StreamsMetadata metadataForKey(final String storeName, final K key, final Serializer<K> keySerializer) { validateIsRunning(); return streamsMetadataState.getMetadataWithKey(storeName, key, keySerializer); } KafkaStreams(final TopologyBuilder builder, final Properties props); KafkaStreams(fina...
KafkaStreams { public <K> StreamsMetadata metadataForKey(final String storeName, final K key, final Serializer<K> keySerializer) { validateIsRunning(); return streamsMetadataState.getMetadataWithKey(storeName, key, keySerializer); } KafkaStreams(final TopologyBuilder builder, final Properties props); KafkaStreams(fina...
KafkaStreams { public <K> StreamsMetadata metadataForKey(final String storeName, final K key, final Serializer<K> keySerializer) { validateIsRunning(); return streamsMetadataState.getMetadataWithKey(storeName, key, keySerializer); } KafkaStreams(final TopologyBuilder builder, final Properties props); KafkaStreams(fina...
@Test public void testCleanup() throws Exception { final Properties props = new Properties(); props.setProperty(StreamsConfig.APPLICATION_ID_CONFIG, "testLocalCleanup"); props.setProperty(StreamsConfig.BOOTSTRAP_SERVERS_CONFIG, CLUSTER.bootstrapServers()); final KStreamBuilder builder = new KStreamBuilder(); final Kafk...
public void cleanUp() { if (state.isRunning()) { throw new IllegalStateException("Cannot clean up while running."); } final String appId = config.getString(StreamsConfig.APPLICATION_ID_CONFIG); final String stateDir = config.getString(StreamsConfig.STATE_DIR_CONFIG); final String localApplicationDir = stateDir + File.s...
KafkaStreams { public void cleanUp() { if (state.isRunning()) { throw new IllegalStateException("Cannot clean up while running."); } final String appId = config.getString(StreamsConfig.APPLICATION_ID_CONFIG); final String stateDir = config.getString(StreamsConfig.STATE_DIR_CONFIG); final String localApplicationDir = st...
KafkaStreams { public void cleanUp() { if (state.isRunning()) { throw new IllegalStateException("Cannot clean up while running."); } final String appId = config.getString(StreamsConfig.APPLICATION_ID_CONFIG); final String stateDir = config.getString(StreamsConfig.STATE_DIR_CONFIG); final String localApplicationDir = st...
KafkaStreams { public void cleanUp() { if (state.isRunning()) { throw new IllegalStateException("Cannot clean up while running."); } final String appId = config.getString(StreamsConfig.APPLICATION_ID_CONFIG); final String stateDir = config.getString(StreamsConfig.STATE_DIR_CONFIG); final String localApplicationDir = st...
KafkaStreams { public void cleanUp() { if (state.isRunning()) { throw new IllegalStateException("Cannot clean up while running."); } final String appId = config.getString(StreamsConfig.APPLICATION_ID_CONFIG); final String stateDir = config.getString(StreamsConfig.STATE_DIR_CONFIG); final String localApplicationDir = st...
@Test public void testToString() { streams.start(); String streamString = streams.toString(); streams.close(); String appId = streamString.split("\\n")[1].split(":")[1].trim(); Assert.assertNotEquals("streamString should not be empty", "", streamString); Assert.assertNotNull("streamString should not be null", streamStr...
@Override public String toString() { return toString(""); }
KafkaStreams { @Override public String toString() { return toString(""); } }
KafkaStreams { @Override public String toString() { return toString(""); } KafkaStreams(final TopologyBuilder builder, final Properties props); KafkaStreams(final TopologyBuilder builder, final StreamsConfig config); KafkaStreams(final TopologyBuilder builder, final StreamsConfig config, ...
KafkaStreams { @Override public String toString() { return toString(""); } KafkaStreams(final TopologyBuilder builder, final Properties props); KafkaStreams(final TopologyBuilder builder, final StreamsConfig config); KafkaStreams(final TopologyBuilder builder, final StreamsConfig config, ...
KafkaStreams { @Override public String toString() { return toString(""); } KafkaStreams(final TopologyBuilder builder, final Properties props); KafkaStreams(final TopologyBuilder builder, final StreamsConfig config); KafkaStreams(final TopologyBuilder builder, final StreamsConfig config, ...
@Test public void shouldSetNumberOfSegments() { final int anySegmentSizeLargerThanOne = 5; assertEquals(anySegmentSizeLargerThanOne, new TestWindows().segments(anySegmentSizeLargerThanOne).segments); }
protected Windows<W> segments(final int segments) throws IllegalArgumentException { if (segments < 2) { throw new IllegalArgumentException("Number of segments must be at least 2."); } this.segments = segments; return this; }
Windows { protected Windows<W> segments(final int segments) throws IllegalArgumentException { if (segments < 2) { throw new IllegalArgumentException("Number of segments must be at least 2."); } this.segments = segments; return this; } }
Windows { protected Windows<W> segments(final int segments) throws IllegalArgumentException { if (segments < 2) { throw new IllegalArgumentException("Number of segments must be at least 2."); } this.segments = segments; return this; } protected Windows(); }
Windows { protected Windows<W> segments(final int segments) throws IllegalArgumentException { if (segments < 2) { throw new IllegalArgumentException("Number of segments must be at least 2."); } this.segments = segments; return this; } protected Windows(); Windows<W> until(final long durationMs); long maintainMs(); abs...
Windows { protected Windows<W> segments(final int segments) throws IllegalArgumentException { if (segments < 2) { throw new IllegalArgumentException("Number of segments must be at least 2."); } this.segments = segments; return this; } protected Windows(); Windows<W> until(final long durationMs); long maintainMs(); abs...
@Test(expected = IllegalArgumentException.class) public void numberOfSegmentsMustBeAtLeastTwo() { new TestWindows().segments(1); }
protected Windows<W> segments(final int segments) throws IllegalArgumentException { if (segments < 2) { throw new IllegalArgumentException("Number of segments must be at least 2."); } this.segments = segments; return this; }
Windows { protected Windows<W> segments(final int segments) throws IllegalArgumentException { if (segments < 2) { throw new IllegalArgumentException("Number of segments must be at least 2."); } this.segments = segments; return this; } }
Windows { protected Windows<W> segments(final int segments) throws IllegalArgumentException { if (segments < 2) { throw new IllegalArgumentException("Number of segments must be at least 2."); } this.segments = segments; return this; } protected Windows(); }
Windows { protected Windows<W> segments(final int segments) throws IllegalArgumentException { if (segments < 2) { throw new IllegalArgumentException("Number of segments must be at least 2."); } this.segments = segments; return this; } protected Windows(); Windows<W> until(final long durationMs); long maintainMs(); abs...
Windows { protected Windows<W> segments(final int segments) throws IllegalArgumentException { if (segments < 2) { throw new IllegalArgumentException("Number of segments must be at least 2."); } this.segments = segments; return this; } protected Windows(); Windows<W> until(final long durationMs); long maintainMs(); abs...
@Test(expected = IllegalArgumentException.class) public void retentionTimeMustNotBeNegative() { new TestWindows().until(-1); }
public Windows<W> until(final long durationMs) throws IllegalArgumentException { if (durationMs < 0) { throw new IllegalArgumentException("Window retention time (durationMs) cannot be negative."); } maintainDurationMs = durationMs; return this; }
Windows { public Windows<W> until(final long durationMs) throws IllegalArgumentException { if (durationMs < 0) { throw new IllegalArgumentException("Window retention time (durationMs) cannot be negative."); } maintainDurationMs = durationMs; return this; } }
Windows { public Windows<W> until(final long durationMs) throws IllegalArgumentException { if (durationMs < 0) { throw new IllegalArgumentException("Window retention time (durationMs) cannot be negative."); } maintainDurationMs = durationMs; return this; } protected Windows(); }
Windows { public Windows<W> until(final long durationMs) throws IllegalArgumentException { if (durationMs < 0) { throw new IllegalArgumentException("Window retention time (durationMs) cannot be negative."); } maintainDurationMs = durationMs; return this; } protected Windows(); Windows<W> until(final long durationMs); ...
Windows { public Windows<W> until(final long durationMs) throws IllegalArgumentException { if (durationMs < 0) { throw new IllegalArgumentException("Window retention time (durationMs) cannot be negative."); } maintainDurationMs = durationMs; return this; } protected Windows(); Windows<W> until(final long durationMs); ...
@Test(expected = ConfigException.class) public void testConfigMissingFormat() { TimestampConverter<SourceRecord> xform = new TimestampConverter.Value<>(); xform.configure(Collections.singletonMap(TimestampConverter.TARGET_TYPE_CONFIG, "string")); }
@Override public void configure(Map<String, ?> configs) { final SimpleConfig simpleConfig = new SimpleConfig(CONFIG_DEF, configs); final String field = simpleConfig.getString(FIELD_CONFIG); final String type = simpleConfig.getString(TARGET_TYPE_CONFIG); String formatPattern = simpleConfig.getString(FORMAT_CONFIG); sche...
TimestampConverter implements Transformation<R> { @Override public void configure(Map<String, ?> configs) { final SimpleConfig simpleConfig = new SimpleConfig(CONFIG_DEF, configs); final String field = simpleConfig.getString(FIELD_CONFIG); final String type = simpleConfig.getString(TARGET_TYPE_CONFIG); String formatPat...
TimestampConverter implements Transformation<R> { @Override public void configure(Map<String, ?> configs) { final SimpleConfig simpleConfig = new SimpleConfig(CONFIG_DEF, configs); final String field = simpleConfig.getString(FIELD_CONFIG); final String type = simpleConfig.getString(TARGET_TYPE_CONFIG); String formatPat...
TimestampConverter implements Transformation<R> { @Override public void configure(Map<String, ?> configs) { final SimpleConfig simpleConfig = new SimpleConfig(CONFIG_DEF, configs); final String field = simpleConfig.getString(FIELD_CONFIG); final String type = simpleConfig.getString(TARGET_TYPE_CONFIG); String formatPat...
TimestampConverter implements Transformation<R> { @Override public void configure(Map<String, ?> configs) { final SimpleConfig simpleConfig = new SimpleConfig(CONFIG_DEF, configs); final String field = simpleConfig.getString(FIELD_CONFIG); final String type = simpleConfig.getString(TARGET_TYPE_CONFIG); String formatPat...
@Test public void floatToConnect() { assertEquals(new SchemaAndValue(Schema.FLOAT32_SCHEMA, 12.34f), converter.toConnectData(TOPIC, "{ \"schema\": { \"type\": \"float\" }, \"payload\": 12.34 }".getBytes())); }
@Override public SchemaAndValue toConnectData(String topic, byte[] value) { JsonNode jsonValue; try { jsonValue = deserializer.deserialize(topic, value); } catch (SerializationException e) { throw new DataException("Converting byte[] to Kafka Connect data failed due to serialization error: ", e); } if (enableSchemas &&...
JsonConverter implements Converter { @Override public SchemaAndValue toConnectData(String topic, byte[] value) { JsonNode jsonValue; try { jsonValue = deserializer.deserialize(topic, value); } catch (SerializationException e) { throw new DataException("Converting byte[] to Kafka Connect data failed due to serialization...
JsonConverter implements Converter { @Override public SchemaAndValue toConnectData(String topic, byte[] value) { JsonNode jsonValue; try { jsonValue = deserializer.deserialize(topic, value); } catch (SerializationException e) { throw new DataException("Converting byte[] to Kafka Connect data failed due to serialization...
JsonConverter implements Converter { @Override public SchemaAndValue toConnectData(String topic, byte[] value) { JsonNode jsonValue; try { jsonValue = deserializer.deserialize(topic, value); } catch (SerializationException e) { throw new DataException("Converting byte[] to Kafka Connect data failed due to serialization...
JsonConverter implements Converter { @Override public SchemaAndValue toConnectData(String topic, byte[] value) { JsonNode jsonValue; try { jsonValue = deserializer.deserialize(topic, value); } catch (SerializationException e) { throw new DataException("Converting byte[] to Kafka Connect data failed due to serialization...
@Test(expected = TopologyBuilderException.class) public void testFrom() { builder.stream("topic-1", "topic-2"); builder.addSource(KStreamImpl.SOURCE_NAME + "0000000000", "topic-3"); }
public <K, V> KStream<K, V> stream(final String... topics) { return stream(null, null, null, null, topics); }
KStreamBuilder extends TopologyBuilder { public <K, V> KStream<K, V> stream(final String... topics) { return stream(null, null, null, null, topics); } }
KStreamBuilder extends TopologyBuilder { public <K, V> KStream<K, V> stream(final String... topics) { return stream(null, null, null, null, topics); } }
KStreamBuilder extends TopologyBuilder { public <K, V> KStream<K, V> stream(final String... topics) { return stream(null, null, null, null, topics); } KStream<K, V> stream(final String... topics); KStream<K, V> stream(final AutoOffsetReset offsetReset, final String... topics); KS...
KStreamBuilder extends TopologyBuilder { public <K, V> KStream<K, V> stream(final String... topics) { return stream(null, null, null, null, topics); } KStream<K, V> stream(final String... topics); KStream<K, V> stream(final AutoOffsetReset offsetReset, final String... topics); KS...
@Test public void testNewName() { assertEquals("X-0000000000", builder.newName("X-")); assertEquals("Y-0000000001", builder.newName("Y-")); assertEquals("Z-0000000002", builder.newName("Z-")); final KStreamBuilder newBuilder = new KStreamBuilder(); assertEquals("X-0000000000", newBuilder.newName("X-")); assertEquals("Y...
public String newName(final String prefix) { return prefix + String.format("%010d", index.getAndIncrement()); }
KStreamBuilder extends TopologyBuilder { public String newName(final String prefix) { return prefix + String.format("%010d", index.getAndIncrement()); } }
KStreamBuilder extends TopologyBuilder { public String newName(final String prefix) { return prefix + String.format("%010d", index.getAndIncrement()); } }
KStreamBuilder extends TopologyBuilder { public String newName(final String prefix) { return prefix + String.format("%010d", index.getAndIncrement()); } KStream<K, V> stream(final String... topics); KStream<K, V> stream(final AutoOffsetReset offsetReset, final String... topics); ...
KStreamBuilder extends TopologyBuilder { public String newName(final String prefix) { return prefix + String.format("%010d", index.getAndIncrement()); } KStream<K, V> stream(final String... topics); KStream<K, V> stream(final AutoOffsetReset offsetReset, final String... topics); ...
@Test public void shouldNotTryProcessingFromSinkTopic() { final KStream<String, String> source = builder.stream("topic-source"); source.to("topic-sink"); final MockProcessorSupplier<String, String> processorSupplier = new MockProcessorSupplier<>(); source.process(processorSupplier); driver = new KStreamTestDriver(build...
public <K, V> KStream<K, V> stream(final String... topics) { return stream(null, null, null, null, topics); }
KStreamBuilder extends TopologyBuilder { public <K, V> KStream<K, V> stream(final String... topics) { return stream(null, null, null, null, topics); } }
KStreamBuilder extends TopologyBuilder { public <K, V> KStream<K, V> stream(final String... topics) { return stream(null, null, null, null, topics); } }
KStreamBuilder extends TopologyBuilder { public <K, V> KStream<K, V> stream(final String... topics) { return stream(null, null, null, null, topics); } KStream<K, V> stream(final String... topics); KStream<K, V> stream(final AutoOffsetReset offsetReset, final String... topics); KS...
KStreamBuilder extends TopologyBuilder { public <K, V> KStream<K, V> stream(final String... topics) { return stream(null, null, null, null, topics); } KStream<K, V> stream(final String... topics); KStream<K, V> stream(final AutoOffsetReset offsetReset, final String... topics); KS...
@Test public void shouldTryProcessingFromThoughTopic() { final KStream<String, String> source = builder.stream("topic-source"); final KStream<String, String> through = source.through("topic-sink"); final MockProcessorSupplier<String, String> sourceProcessorSupplier = new MockProcessorSupplier<>(); final MockProcessorSu...
public <K, V> KStream<K, V> stream(final String... topics) { return stream(null, null, null, null, topics); }
KStreamBuilder extends TopologyBuilder { public <K, V> KStream<K, V> stream(final String... topics) { return stream(null, null, null, null, topics); } }
KStreamBuilder extends TopologyBuilder { public <K, V> KStream<K, V> stream(final String... topics) { return stream(null, null, null, null, topics); } }
KStreamBuilder extends TopologyBuilder { public <K, V> KStream<K, V> stream(final String... topics) { return stream(null, null, null, null, topics); } KStream<K, V> stream(final String... topics); KStream<K, V> stream(final AutoOffsetReset offsetReset, final String... topics); KS...
KStreamBuilder extends TopologyBuilder { public <K, V> KStream<K, V> stream(final String... topics) { return stream(null, null, null, null, topics); } KStream<K, V> stream(final String... topics); KStream<K, V> stream(final AutoOffsetReset offsetReset, final String... topics); KS...
@Test public void testNewStoreName() { assertEquals("X-STATE-STORE-0000000000", builder.newStoreName("X-")); assertEquals("Y-STATE-STORE-0000000001", builder.newStoreName("Y-")); assertEquals("Z-STATE-STORE-0000000002", builder.newStoreName("Z-")); KStreamBuilder newBuilder = new KStreamBuilder(); assertEquals("X-STATE...
public String newStoreName(final String prefix) { return prefix + String.format(KTableImpl.STATE_STORE_NAME + "%010d", index.getAndIncrement()); }
KStreamBuilder extends TopologyBuilder { public String newStoreName(final String prefix) { return prefix + String.format(KTableImpl.STATE_STORE_NAME + "%010d", index.getAndIncrement()); } }
KStreamBuilder extends TopologyBuilder { public String newStoreName(final String prefix) { return prefix + String.format(KTableImpl.STATE_STORE_NAME + "%010d", index.getAndIncrement()); } }
KStreamBuilder extends TopologyBuilder { public String newStoreName(final String prefix) { return prefix + String.format(KTableImpl.STATE_STORE_NAME + "%010d", index.getAndIncrement()); } KStream<K, V> stream(final String... topics); KStream<K, V> stream(final AutoOffsetReset offsetReset, ...
KStreamBuilder extends TopologyBuilder { public String newStoreName(final String prefix) { return prefix + String.format(KTableImpl.STATE_STORE_NAME + "%010d", index.getAndIncrement()); } KStream<K, V> stream(final String... topics); KStream<K, V> stream(final AutoOffsetReset offsetReset, ...
@Test public void testMerge() { final String topic1 = "topic-1"; final String topic2 = "topic-2"; final KStream<String, String> source1 = builder.stream(topic1); final KStream<String, String> source2 = builder.stream(topic2); final KStream<String, String> merged = builder.merge(source1, source2); final MockProcessorSup...
public <K, V> KStream<K, V> merge(final KStream<K, V>... streams) { return KStreamImpl.merge(this, streams); }
KStreamBuilder extends TopologyBuilder { public <K, V> KStream<K, V> merge(final KStream<K, V>... streams) { return KStreamImpl.merge(this, streams); } }
KStreamBuilder extends TopologyBuilder { public <K, V> KStream<K, V> merge(final KStream<K, V>... streams) { return KStreamImpl.merge(this, streams); } }
KStreamBuilder extends TopologyBuilder { public <K, V> KStream<K, V> merge(final KStream<K, V>... streams) { return KStreamImpl.merge(this, streams); } KStream<K, V> stream(final String... topics); KStream<K, V> stream(final AutoOffsetReset offsetReset, final String... topics); K...
KStreamBuilder extends TopologyBuilder { public <K, V> KStream<K, V> merge(final KStream<K, V>... streams) { return KStreamImpl.merge(this, streams); } KStream<K, V> stream(final String... topics); KStream<K, V> stream(final AutoOffsetReset offsetReset, final String... topics); K...
@Test(expected = TopologyBuilderException.class) public void shouldThrowExceptionWhenNoTopicPresent() throws Exception { builder.stream(); }
public <K, V> KStream<K, V> stream(final String... topics) { return stream(null, null, null, null, topics); }
KStreamBuilder extends TopologyBuilder { public <K, V> KStream<K, V> stream(final String... topics) { return stream(null, null, null, null, topics); } }
KStreamBuilder extends TopologyBuilder { public <K, V> KStream<K, V> stream(final String... topics) { return stream(null, null, null, null, topics); } }
KStreamBuilder extends TopologyBuilder { public <K, V> KStream<K, V> stream(final String... topics) { return stream(null, null, null, null, topics); } KStream<K, V> stream(final String... topics); KStream<K, V> stream(final AutoOffsetReset offsetReset, final String... topics); KS...
KStreamBuilder extends TopologyBuilder { public <K, V> KStream<K, V> stream(final String... topics) { return stream(null, null, null, null, topics); } KStream<K, V> stream(final String... topics); KStream<K, V> stream(final AutoOffsetReset offsetReset, final String... topics); KS...
@Test(expected = NullPointerException.class) public void shouldThrowExceptionWhenTopicNamesAreNull() throws Exception { builder.stream(Serdes.String(), Serdes.String(), null, null); }
public <K, V> KStream<K, V> stream(final String... topics) { return stream(null, null, null, null, topics); }
KStreamBuilder extends TopologyBuilder { public <K, V> KStream<K, V> stream(final String... topics) { return stream(null, null, null, null, topics); } }
KStreamBuilder extends TopologyBuilder { public <K, V> KStream<K, V> stream(final String... topics) { return stream(null, null, null, null, topics); } }
KStreamBuilder extends TopologyBuilder { public <K, V> KStream<K, V> stream(final String... topics) { return stream(null, null, null, null, topics); } KStream<K, V> stream(final String... topics); KStream<K, V> stream(final AutoOffsetReset offsetReset, final String... topics); KS...
KStreamBuilder extends TopologyBuilder { public <K, V> KStream<K, V> stream(final String... topics) { return stream(null, null, null, null, topics); } KStream<K, V> stream(final String... topics); KStream<K, V> stream(final AutoOffsetReset offsetReset, final String... topics); KS...
@Test public void shouldStillMaterializeSourceKTableIfStateNameNotSpecified() throws Exception { KTable table1 = builder.table("topic1", "table1"); KTable table2 = builder.table("topic2", (String) null); final ProcessorTopology topology = builder.build(null); assertEquals(2, topology.stateStores().size()); assertEquals...
public <K, V> KTable<K, V> table(final String topic, final String queryableStoreName) { return table(null, null, null, null, topic, queryableStoreName); }
KStreamBuilder extends TopologyBuilder { public <K, V> KTable<K, V> table(final String topic, final String queryableStoreName) { return table(null, null, null, null, topic, queryableStoreName); } }
KStreamBuilder extends TopologyBuilder { public <K, V> KTable<K, V> table(final String topic, final String queryableStoreName) { return table(null, null, null, null, topic, queryableStoreName); } }
KStreamBuilder extends TopologyBuilder { public <K, V> KTable<K, V> table(final String topic, final String queryableStoreName) { return table(null, null, null, null, topic, queryableStoreName); } KStream<K, V> stream(final String... topics); KStream<K, V> stream(final AutoOffsetReset offsetReset, ...
KStreamBuilder extends TopologyBuilder { public <K, V> KTable<K, V> table(final String topic, final String queryableStoreName) { return table(null, null, null, null, topic, queryableStoreName); } KStream<K, V> stream(final String... topics); KStream<K, V> stream(final AutoOffsetReset offsetReset, ...
@Test public void shouldBuildSimpleGlobalTableTopology() throws Exception { builder.globalTable("table", "globalTable"); final ProcessorTopology topology = builder.buildGlobalStateTopology(); final List<StateStore> stateStores = topology.globalStateStores(); assertEquals(1, stateStores.size()); assertEquals("globalTabl...
public <K, V> GlobalKTable<K, V> globalTable(final String topic, final String queryableStoreName) { return globalTable(null, null, null, topic, queryableStoreName); }
KStreamBuilder extends TopologyBuilder { public <K, V> GlobalKTable<K, V> globalTable(final String topic, final String queryableStoreName) { return globalTable(null, null, null, topic, queryableStoreName); } }
KStreamBuilder extends TopologyBuilder { public <K, V> GlobalKTable<K, V> globalTable(final String topic, final String queryableStoreName) { return globalTable(null, null, null, topic, queryableStoreName); } }
KStreamBuilder extends TopologyBuilder { public <K, V> GlobalKTable<K, V> globalTable(final String topic, final String queryableStoreName) { return globalTable(null, null, null, topic, queryableStoreName); } KStream<K, V> stream(final String... topics); KStream<K, V> stream(final AutoOffsetReset offsetReset, ...
KStreamBuilder extends TopologyBuilder { public <K, V> GlobalKTable<K, V> globalTable(final String topic, final String queryableStoreName) { return globalTable(null, null, null, topic, queryableStoreName); } KStream<K, V> stream(final String... topics); KStream<K, V> stream(final AutoOffsetReset offsetReset, ...
@Test(expected = ConfigException.class) public void testConfigInvalidFormat() { TimestampConverter<SourceRecord> xform = new TimestampConverter.Value<>(); Map<String, String> config = new HashMap<>(); config.put(TimestampConverter.TARGET_TYPE_CONFIG, "string"); config.put(TimestampConverter.FORMAT_CONFIG, "bad-format")...
@Override public void configure(Map<String, ?> configs) { final SimpleConfig simpleConfig = new SimpleConfig(CONFIG_DEF, configs); final String field = simpleConfig.getString(FIELD_CONFIG); final String type = simpleConfig.getString(TARGET_TYPE_CONFIG); String formatPattern = simpleConfig.getString(FORMAT_CONFIG); sche...
TimestampConverter implements Transformation<R> { @Override public void configure(Map<String, ?> configs) { final SimpleConfig simpleConfig = new SimpleConfig(CONFIG_DEF, configs); final String field = simpleConfig.getString(FIELD_CONFIG); final String type = simpleConfig.getString(TARGET_TYPE_CONFIG); String formatPat...
TimestampConverter implements Transformation<R> { @Override public void configure(Map<String, ?> configs) { final SimpleConfig simpleConfig = new SimpleConfig(CONFIG_DEF, configs); final String field = simpleConfig.getString(FIELD_CONFIG); final String type = simpleConfig.getString(TARGET_TYPE_CONFIG); String formatPat...
TimestampConverter implements Transformation<R> { @Override public void configure(Map<String, ?> configs) { final SimpleConfig simpleConfig = new SimpleConfig(CONFIG_DEF, configs); final String field = simpleConfig.getString(FIELD_CONFIG); final String type = simpleConfig.getString(TARGET_TYPE_CONFIG); String formatPat...
TimestampConverter implements Transformation<R> { @Override public void configure(Map<String, ?> configs) { final SimpleConfig simpleConfig = new SimpleConfig(CONFIG_DEF, configs); final String field = simpleConfig.getString(FIELD_CONFIG); final String type = simpleConfig.getString(TARGET_TYPE_CONFIG); String formatPat...
@Test public void shouldBuildGlobalTopologyWithAllGlobalTables() throws Exception { builder.globalTable("table", "globalTable"); builder.globalTable("table2", "globalTable2"); doBuildGlobalTopologyWithAllGlobalTables(); }
public <K, V> GlobalKTable<K, V> globalTable(final String topic, final String queryableStoreName) { return globalTable(null, null, null, topic, queryableStoreName); }
KStreamBuilder extends TopologyBuilder { public <K, V> GlobalKTable<K, V> globalTable(final String topic, final String queryableStoreName) { return globalTable(null, null, null, topic, queryableStoreName); } }
KStreamBuilder extends TopologyBuilder { public <K, V> GlobalKTable<K, V> globalTable(final String topic, final String queryableStoreName) { return globalTable(null, null, null, topic, queryableStoreName); } }
KStreamBuilder extends TopologyBuilder { public <K, V> GlobalKTable<K, V> globalTable(final String topic, final String queryableStoreName) { return globalTable(null, null, null, topic, queryableStoreName); } KStream<K, V> stream(final String... topics); KStream<K, V> stream(final AutoOffsetReset offsetReset, ...
KStreamBuilder extends TopologyBuilder { public <K, V> GlobalKTable<K, V> globalTable(final String topic, final String queryableStoreName) { return globalTable(null, null, null, topic, queryableStoreName); } KStream<K, V> stream(final String... topics); KStream<K, V> stream(final AutoOffsetReset offsetReset, ...
@Test public void shouldBuildGlobalTopologyWithAllGlobalTablesWithInternalStoreName() throws Exception { builder.globalTable("table"); builder.globalTable("table2"); doBuildGlobalTopologyWithAllGlobalTables(); }
public <K, V> GlobalKTable<K, V> globalTable(final String topic, final String queryableStoreName) { return globalTable(null, null, null, topic, queryableStoreName); }
KStreamBuilder extends TopologyBuilder { public <K, V> GlobalKTable<K, V> globalTable(final String topic, final String queryableStoreName) { return globalTable(null, null, null, topic, queryableStoreName); } }
KStreamBuilder extends TopologyBuilder { public <K, V> GlobalKTable<K, V> globalTable(final String topic, final String queryableStoreName) { return globalTable(null, null, null, topic, queryableStoreName); } }
KStreamBuilder extends TopologyBuilder { public <K, V> GlobalKTable<K, V> globalTable(final String topic, final String queryableStoreName) { return globalTable(null, null, null, topic, queryableStoreName); } KStream<K, V> stream(final String... topics); KStream<K, V> stream(final AutoOffsetReset offsetReset, ...
KStreamBuilder extends TopologyBuilder { public <K, V> GlobalKTable<K, V> globalTable(final String topic, final String queryableStoreName) { return globalTable(null, null, null, topic, queryableStoreName); } KStream<K, V> stream(final String... topics); KStream<K, V> stream(final AutoOffsetReset offsetReset, ...
@Test public void shouldAddTopicToEarliestAutoOffsetResetList() { final String topicName = "topic-1"; builder.stream(TopologyBuilder.AutoOffsetReset.EARLIEST, topicName); assertTrue(builder.earliestResetTopicsPattern().matcher(topicName).matches()); assertFalse(builder.latestResetTopicsPattern().matcher(topicName).matc...
public <K, V> KStream<K, V> stream(final String... topics) { return stream(null, null, null, null, topics); }
KStreamBuilder extends TopologyBuilder { public <K, V> KStream<K, V> stream(final String... topics) { return stream(null, null, null, null, topics); } }
KStreamBuilder extends TopologyBuilder { public <K, V> KStream<K, V> stream(final String... topics) { return stream(null, null, null, null, topics); } }
KStreamBuilder extends TopologyBuilder { public <K, V> KStream<K, V> stream(final String... topics) { return stream(null, null, null, null, topics); } KStream<K, V> stream(final String... topics); KStream<K, V> stream(final AutoOffsetReset offsetReset, final String... topics); KS...
KStreamBuilder extends TopologyBuilder { public <K, V> KStream<K, V> stream(final String... topics) { return stream(null, null, null, null, topics); } KStream<K, V> stream(final String... topics); KStream<K, V> stream(final AutoOffsetReset offsetReset, final String... topics); KS...
@Test public void shouldAddTopicToLatestAutoOffsetResetList() { final String topicName = "topic-1"; builder.stream(TopologyBuilder.AutoOffsetReset.LATEST, topicName); assertTrue(builder.latestResetTopicsPattern().matcher(topicName).matches()); assertFalse(builder.earliestResetTopicsPattern().matcher(topicName).matches(...
public <K, V> KStream<K, V> stream(final String... topics) { return stream(null, null, null, null, topics); }
KStreamBuilder extends TopologyBuilder { public <K, V> KStream<K, V> stream(final String... topics) { return stream(null, null, null, null, topics); } }
KStreamBuilder extends TopologyBuilder { public <K, V> KStream<K, V> stream(final String... topics) { return stream(null, null, null, null, topics); } }
KStreamBuilder extends TopologyBuilder { public <K, V> KStream<K, V> stream(final String... topics) { return stream(null, null, null, null, topics); } KStream<K, V> stream(final String... topics); KStream<K, V> stream(final AutoOffsetReset offsetReset, final String... topics); KS...
KStreamBuilder extends TopologyBuilder { public <K, V> KStream<K, V> stream(final String... topics) { return stream(null, null, null, null, topics); } KStream<K, V> stream(final String... topics); KStream<K, V> stream(final AutoOffsetReset offsetReset, final String... topics); KS...
@Test public void shouldAddTableToEarliestAutoOffsetResetList() { final String topicName = "topic-1"; final String storeName = "test-store"; builder.table(TopologyBuilder.AutoOffsetReset.EARLIEST, topicName, storeName); assertTrue(builder.earliestResetTopicsPattern().matcher(topicName).matches()); assertFalse(builder.l...
public <K, V> KTable<K, V> table(final String topic, final String queryableStoreName) { return table(null, null, null, null, topic, queryableStoreName); }
KStreamBuilder extends TopologyBuilder { public <K, V> KTable<K, V> table(final String topic, final String queryableStoreName) { return table(null, null, null, null, topic, queryableStoreName); } }
KStreamBuilder extends TopologyBuilder { public <K, V> KTable<K, V> table(final String topic, final String queryableStoreName) { return table(null, null, null, null, topic, queryableStoreName); } }
KStreamBuilder extends TopologyBuilder { public <K, V> KTable<K, V> table(final String topic, final String queryableStoreName) { return table(null, null, null, null, topic, queryableStoreName); } KStream<K, V> stream(final String... topics); KStream<K, V> stream(final AutoOffsetReset offsetReset, ...
KStreamBuilder extends TopologyBuilder { public <K, V> KTable<K, V> table(final String topic, final String queryableStoreName) { return table(null, null, null, null, topic, queryableStoreName); } KStream<K, V> stream(final String... topics); KStream<K, V> stream(final AutoOffsetReset offsetReset, ...
@Test public void shouldAddTableToLatestAutoOffsetResetList() { final String topicName = "topic-1"; final String storeName = "test-store"; builder.table(TopologyBuilder.AutoOffsetReset.LATEST, topicName, storeName); assertTrue(builder.latestResetTopicsPattern().matcher(topicName).matches()); assertFalse(builder.earlies...
public <K, V> KTable<K, V> table(final String topic, final String queryableStoreName) { return table(null, null, null, null, topic, queryableStoreName); }
KStreamBuilder extends TopologyBuilder { public <K, V> KTable<K, V> table(final String topic, final String queryableStoreName) { return table(null, null, null, null, topic, queryableStoreName); } }
KStreamBuilder extends TopologyBuilder { public <K, V> KTable<K, V> table(final String topic, final String queryableStoreName) { return table(null, null, null, null, topic, queryableStoreName); } }
KStreamBuilder extends TopologyBuilder { public <K, V> KTable<K, V> table(final String topic, final String queryableStoreName) { return table(null, null, null, null, topic, queryableStoreName); } KStream<K, V> stream(final String... topics); KStream<K, V> stream(final AutoOffsetReset offsetReset, ...
KStreamBuilder extends TopologyBuilder { public <K, V> KTable<K, V> table(final String topic, final String queryableStoreName) { return table(null, null, null, null, topic, queryableStoreName); } KStream<K, V> stream(final String... topics); KStream<K, V> stream(final AutoOffsetReset offsetReset, ...
@Test public void shouldNotAddTableToOffsetResetLists() { final String topicName = "topic-1"; final String storeName = "test-store"; final Serde<String> stringSerde = Serdes.String(); builder.table(stringSerde, stringSerde, topicName, storeName); assertFalse(builder.latestResetTopicsPattern().matcher(topicName).matches...
public <K, V> KTable<K, V> table(final String topic, final String queryableStoreName) { return table(null, null, null, null, topic, queryableStoreName); }
KStreamBuilder extends TopologyBuilder { public <K, V> KTable<K, V> table(final String topic, final String queryableStoreName) { return table(null, null, null, null, topic, queryableStoreName); } }
KStreamBuilder extends TopologyBuilder { public <K, V> KTable<K, V> table(final String topic, final String queryableStoreName) { return table(null, null, null, null, topic, queryableStoreName); } }
KStreamBuilder extends TopologyBuilder { public <K, V> KTable<K, V> table(final String topic, final String queryableStoreName) { return table(null, null, null, null, topic, queryableStoreName); } KStream<K, V> stream(final String... topics); KStream<K, V> stream(final AutoOffsetReset offsetReset, ...
KStreamBuilder extends TopologyBuilder { public <K, V> KTable<K, V> table(final String topic, final String queryableStoreName) { return table(null, null, null, null, topic, queryableStoreName); } KStream<K, V> stream(final String... topics); KStream<K, V> stream(final AutoOffsetReset offsetReset, ...
@Test public void shouldNotAddRegexTopicsToOffsetResetLists() { final Pattern topicPattern = Pattern.compile("topic-\\d"); final String topic = "topic-5"; builder.stream(topicPattern); assertFalse(builder.latestResetTopicsPattern().matcher(topic).matches()); assertFalse(builder.earliestResetTopicsPattern().matcher(topi...
public <K, V> KStream<K, V> stream(final String... topics) { return stream(null, null, null, null, topics); }
KStreamBuilder extends TopologyBuilder { public <K, V> KStream<K, V> stream(final String... topics) { return stream(null, null, null, null, topics); } }
KStreamBuilder extends TopologyBuilder { public <K, V> KStream<K, V> stream(final String... topics) { return stream(null, null, null, null, topics); } }
KStreamBuilder extends TopologyBuilder { public <K, V> KStream<K, V> stream(final String... topics) { return stream(null, null, null, null, topics); } KStream<K, V> stream(final String... topics); KStream<K, V> stream(final AutoOffsetReset offsetReset, final String... topics); KS...
KStreamBuilder extends TopologyBuilder { public <K, V> KStream<K, V> stream(final String... topics) { return stream(null, null, null, null, topics); } KStream<K, V> stream(final String... topics); KStream<K, V> stream(final AutoOffsetReset offsetReset, final String... topics); KS...
@Test public void shouldAddRegexTopicToEarliestAutoOffsetResetList() { final Pattern topicPattern = Pattern.compile("topic-\\d+"); final String topicTwo = "topic-500000"; builder.stream(TopologyBuilder.AutoOffsetReset.EARLIEST, topicPattern); assertTrue(builder.earliestResetTopicsPattern().matcher(topicTwo).matches());...
public <K, V> KStream<K, V> stream(final String... topics) { return stream(null, null, null, null, topics); }
KStreamBuilder extends TopologyBuilder { public <K, V> KStream<K, V> stream(final String... topics) { return stream(null, null, null, null, topics); } }
KStreamBuilder extends TopologyBuilder { public <K, V> KStream<K, V> stream(final String... topics) { return stream(null, null, null, null, topics); } }
KStreamBuilder extends TopologyBuilder { public <K, V> KStream<K, V> stream(final String... topics) { return stream(null, null, null, null, topics); } KStream<K, V> stream(final String... topics); KStream<K, V> stream(final AutoOffsetReset offsetReset, final String... topics); KS...
KStreamBuilder extends TopologyBuilder { public <K, V> KStream<K, V> stream(final String... topics) { return stream(null, null, null, null, topics); } KStream<K, V> stream(final String... topics); KStream<K, V> stream(final AutoOffsetReset offsetReset, final String... topics); KS...
@Test public void shouldAddRegexTopicToLatestAutoOffsetResetList() { final Pattern topicPattern = Pattern.compile("topic-\\d+"); final String topicTwo = "topic-1000000"; builder.stream(TopologyBuilder.AutoOffsetReset.LATEST, topicPattern); assertTrue(builder.latestResetTopicsPattern().matcher(topicTwo).matches()); asse...
public <K, V> KStream<K, V> stream(final String... topics) { return stream(null, null, null, null, topics); }
KStreamBuilder extends TopologyBuilder { public <K, V> KStream<K, V> stream(final String... topics) { return stream(null, null, null, null, topics); } }
KStreamBuilder extends TopologyBuilder { public <K, V> KStream<K, V> stream(final String... topics) { return stream(null, null, null, null, topics); } }
KStreamBuilder extends TopologyBuilder { public <K, V> KStream<K, V> stream(final String... topics) { return stream(null, null, null, null, topics); } KStream<K, V> stream(final String... topics); KStream<K, V> stream(final AutoOffsetReset offsetReset, final String... topics); KS...
KStreamBuilder extends TopologyBuilder { public <K, V> KStream<K, V> stream(final String... topics) { return stream(null, null, null, null, topics); } KStream<K, V> stream(final String... topics); KStream<K, V> stream(final AutoOffsetReset offsetReset, final String... topics); KS...
@Test public void schemaless() { final Map<String, Object> value = new HashMap<>(); value.put("magic", 42); value.put("bool", true); value.put("byte", (byte) 42); value.put("short", (short) 42); value.put("int", 42); value.put("long", 42L); value.put("float", 42f); value.put("double", 42d); value.put("string", "blabla"...
@Override public R apply(R record) { if (operatingSchema(record) == null) { return applySchemaless(record); } else { return applyWithSchema(record); } }
MaskField implements Transformation<R> { @Override public R apply(R record) { if (operatingSchema(record) == null) { return applySchemaless(record); } else { return applyWithSchema(record); } } }
MaskField implements Transformation<R> { @Override public R apply(R record) { if (operatingSchema(record) == null) { return applySchemaless(record); } else { return applyWithSchema(record); } } }
MaskField implements Transformation<R> { @Override public R apply(R record) { if (operatingSchema(record) == null) { return applySchemaless(record); } else { return applyWithSchema(record); } } @Override void configure(Map<String, ?> props); @Override R apply(R record); @Override ConfigDef config(); @Override void clo...
MaskField implements Transformation<R> { @Override public R apply(R record) { if (operatingSchema(record) == null) { return applySchemaless(record); } else { return applyWithSchema(record); } } @Override void configure(Map<String, ?> props); @Override R apply(R record); @Override ConfigDef config(); @Override void clo...
@SuppressWarnings("unchecked") @Test public void kStreamTimestampExtractorShouldBeNull() throws Exception { builder.stream("topic"); final ProcessorTopology processorTopology = builder.build(null); assertNull(processorTopology.source("topic").getTimestampExtractor()); }
public <K, V> KStream<K, V> stream(final String... topics) { return stream(null, null, null, null, topics); }
KStreamBuilder extends TopologyBuilder { public <K, V> KStream<K, V> stream(final String... topics) { return stream(null, null, null, null, topics); } }
KStreamBuilder extends TopologyBuilder { public <K, V> KStream<K, V> stream(final String... topics) { return stream(null, null, null, null, topics); } }
KStreamBuilder extends TopologyBuilder { public <K, V> KStream<K, V> stream(final String... topics) { return stream(null, null, null, null, topics); } KStream<K, V> stream(final String... topics); KStream<K, V> stream(final AutoOffsetReset offsetReset, final String... topics); KS...
KStreamBuilder extends TopologyBuilder { public <K, V> KStream<K, V> stream(final String... topics) { return stream(null, null, null, null, topics); } KStream<K, V> stream(final String... topics); KStream<K, V> stream(final AutoOffsetReset offsetReset, final String... topics); KS...
@SuppressWarnings("unchecked") @Test public void shouldAddTimestampExtractorToStreamWithKeyValSerdePerSource() throws Exception { builder.stream(new MockTimestampExtractor(), null, null, "topic"); final ProcessorTopology processorTopology = builder.build(null); for (final SourceNode sourceNode: processorTopology.source...
public <K, V> KStream<K, V> stream(final String... topics) { return stream(null, null, null, null, topics); }
KStreamBuilder extends TopologyBuilder { public <K, V> KStream<K, V> stream(final String... topics) { return stream(null, null, null, null, topics); } }
KStreamBuilder extends TopologyBuilder { public <K, V> KStream<K, V> stream(final String... topics) { return stream(null, null, null, null, topics); } }
KStreamBuilder extends TopologyBuilder { public <K, V> KStream<K, V> stream(final String... topics) { return stream(null, null, null, null, topics); } KStream<K, V> stream(final String... topics); KStream<K, V> stream(final AutoOffsetReset offsetReset, final String... topics); KS...
KStreamBuilder extends TopologyBuilder { public <K, V> KStream<K, V> stream(final String... topics) { return stream(null, null, null, null, topics); } KStream<K, V> stream(final String... topics); KStream<K, V> stream(final AutoOffsetReset offsetReset, final String... topics); KS...
@SuppressWarnings("unchecked") @Test public void shouldAddTimestampExtractorToStreamWithOffsetResetPerSource() throws Exception { builder.stream(null, new MockTimestampExtractor(), null, null, "topic"); final ProcessorTopology processorTopology = builder.build(null); assertThat(processorTopology.source("topic").getTime...
public <K, V> KStream<K, V> stream(final String... topics) { return stream(null, null, null, null, topics); }
KStreamBuilder extends TopologyBuilder { public <K, V> KStream<K, V> stream(final String... topics) { return stream(null, null, null, null, topics); } }
KStreamBuilder extends TopologyBuilder { public <K, V> KStream<K, V> stream(final String... topics) { return stream(null, null, null, null, topics); } }
KStreamBuilder extends TopologyBuilder { public <K, V> KStream<K, V> stream(final String... topics) { return stream(null, null, null, null, topics); } KStream<K, V> stream(final String... topics); KStream<K, V> stream(final AutoOffsetReset offsetReset, final String... topics); KS...
KStreamBuilder extends TopologyBuilder { public <K, V> KStream<K, V> stream(final String... topics) { return stream(null, null, null, null, topics); } KStream<K, V> stream(final String... topics); KStream<K, V> stream(final AutoOffsetReset offsetReset, final String... topics); KS...
@SuppressWarnings("unchecked") @Test public void shouldAddTimestampExtractorToTablePerSource() throws Exception { builder.table("topic", "store"); final ProcessorTopology processorTopology = builder.build(null); assertNull(processorTopology.source("topic").getTimestampExtractor()); }
public <K, V> KTable<K, V> table(final String topic, final String queryableStoreName) { return table(null, null, null, null, topic, queryableStoreName); }
KStreamBuilder extends TopologyBuilder { public <K, V> KTable<K, V> table(final String topic, final String queryableStoreName) { return table(null, null, null, null, topic, queryableStoreName); } }
KStreamBuilder extends TopologyBuilder { public <K, V> KTable<K, V> table(final String topic, final String queryableStoreName) { return table(null, null, null, null, topic, queryableStoreName); } }
KStreamBuilder extends TopologyBuilder { public <K, V> KTable<K, V> table(final String topic, final String queryableStoreName) { return table(null, null, null, null, topic, queryableStoreName); } KStream<K, V> stream(final String... topics); KStream<K, V> stream(final AutoOffsetReset offsetReset, ...
KStreamBuilder extends TopologyBuilder { public <K, V> KTable<K, V> table(final String topic, final String queryableStoreName) { return table(null, null, null, null, topic, queryableStoreName); } KStream<K, V> stream(final String... topics); KStream<K, V> stream(final AutoOffsetReset offsetReset, ...
@SuppressWarnings("unchecked") @Test public void kTableTimestampExtractorShouldBeNull() throws Exception { builder.table("topic", "store"); final ProcessorTopology processorTopology = builder.build(null); assertNull(processorTopology.source("topic").getTimestampExtractor()); }
public <K, V> KTable<K, V> table(final String topic, final String queryableStoreName) { return table(null, null, null, null, topic, queryableStoreName); }
KStreamBuilder extends TopologyBuilder { public <K, V> KTable<K, V> table(final String topic, final String queryableStoreName) { return table(null, null, null, null, topic, queryableStoreName); } }
KStreamBuilder extends TopologyBuilder { public <K, V> KTable<K, V> table(final String topic, final String queryableStoreName) { return table(null, null, null, null, topic, queryableStoreName); } }
KStreamBuilder extends TopologyBuilder { public <K, V> KTable<K, V> table(final String topic, final String queryableStoreName) { return table(null, null, null, null, topic, queryableStoreName); } KStream<K, V> stream(final String... topics); KStream<K, V> stream(final AutoOffsetReset offsetReset, ...
KStreamBuilder extends TopologyBuilder { public <K, V> KTable<K, V> table(final String topic, final String queryableStoreName) { return table(null, null, null, null, topic, queryableStoreName); } KStream<K, V> stream(final String... topics); KStream<K, V> stream(final AutoOffsetReset offsetReset, ...
@SuppressWarnings("unchecked") @Test public void shouldAddTimestampExtractorToTableWithKeyValSerdePerSource() throws Exception { builder.table(null, new MockTimestampExtractor(), null, null, "topic", "store"); final ProcessorTopology processorTopology = builder.build(null); assertThat(processorTopology.source("topic")....
public <K, V> KTable<K, V> table(final String topic, final String queryableStoreName) { return table(null, null, null, null, topic, queryableStoreName); }
KStreamBuilder extends TopologyBuilder { public <K, V> KTable<K, V> table(final String topic, final String queryableStoreName) { return table(null, null, null, null, topic, queryableStoreName); } }
KStreamBuilder extends TopologyBuilder { public <K, V> KTable<K, V> table(final String topic, final String queryableStoreName) { return table(null, null, null, null, topic, queryableStoreName); } }
KStreamBuilder extends TopologyBuilder { public <K, V> KTable<K, V> table(final String topic, final String queryableStoreName) { return table(null, null, null, null, topic, queryableStoreName); } KStream<K, V> stream(final String... topics); KStream<K, V> stream(final AutoOffsetReset offsetReset, ...
KStreamBuilder extends TopologyBuilder { public <K, V> KTable<K, V> table(final String topic, final String queryableStoreName) { return table(null, null, null, null, topic, queryableStoreName); } KStream<K, V> stream(final String... topics); KStream<K, V> stream(final AutoOffsetReset offsetReset, ...
@Test public void shouldSetWindowSize() { assertEquals(ANY_SIZE, TimeWindows.of(ANY_SIZE).sizeMs); }
public static TimeWindows of(final long sizeMs) throws IllegalArgumentException { if (sizeMs <= 0) { throw new IllegalArgumentException("Window size (sizeMs) must be larger than zero."); } return new TimeWindows(sizeMs, sizeMs); }
TimeWindows extends Windows<TimeWindow> { public static TimeWindows of(final long sizeMs) throws IllegalArgumentException { if (sizeMs <= 0) { throw new IllegalArgumentException("Window size (sizeMs) must be larger than zero."); } return new TimeWindows(sizeMs, sizeMs); } }
TimeWindows extends Windows<TimeWindow> { public static TimeWindows of(final long sizeMs) throws IllegalArgumentException { if (sizeMs <= 0) { throw new IllegalArgumentException("Window size (sizeMs) must be larger than zero."); } return new TimeWindows(sizeMs, sizeMs); } private TimeWindows(final long sizeMs, final l...
TimeWindows extends Windows<TimeWindow> { public static TimeWindows of(final long sizeMs) throws IllegalArgumentException { if (sizeMs <= 0) { throw new IllegalArgumentException("Window size (sizeMs) must be larger than zero."); } return new TimeWindows(sizeMs, sizeMs); } private TimeWindows(final long sizeMs, final l...
TimeWindows extends Windows<TimeWindow> { public static TimeWindows of(final long sizeMs) throws IllegalArgumentException { if (sizeMs <= 0) { throw new IllegalArgumentException("Window size (sizeMs) must be larger than zero."); } return new TimeWindows(sizeMs, sizeMs); } private TimeWindows(final long sizeMs, final l...
@Test(expected = IllegalArgumentException.class) public void windowSizeMustNotBeZero() { TimeWindows.of(0); }
public static TimeWindows of(final long sizeMs) throws IllegalArgumentException { if (sizeMs <= 0) { throw new IllegalArgumentException("Window size (sizeMs) must be larger than zero."); } return new TimeWindows(sizeMs, sizeMs); }
TimeWindows extends Windows<TimeWindow> { public static TimeWindows of(final long sizeMs) throws IllegalArgumentException { if (sizeMs <= 0) { throw new IllegalArgumentException("Window size (sizeMs) must be larger than zero."); } return new TimeWindows(sizeMs, sizeMs); } }
TimeWindows extends Windows<TimeWindow> { public static TimeWindows of(final long sizeMs) throws IllegalArgumentException { if (sizeMs <= 0) { throw new IllegalArgumentException("Window size (sizeMs) must be larger than zero."); } return new TimeWindows(sizeMs, sizeMs); } private TimeWindows(final long sizeMs, final l...
TimeWindows extends Windows<TimeWindow> { public static TimeWindows of(final long sizeMs) throws IllegalArgumentException { if (sizeMs <= 0) { throw new IllegalArgumentException("Window size (sizeMs) must be larger than zero."); } return new TimeWindows(sizeMs, sizeMs); } private TimeWindows(final long sizeMs, final l...
TimeWindows extends Windows<TimeWindow> { public static TimeWindows of(final long sizeMs) throws IllegalArgumentException { if (sizeMs <= 0) { throw new IllegalArgumentException("Window size (sizeMs) must be larger than zero."); } return new TimeWindows(sizeMs, sizeMs); } private TimeWindows(final long sizeMs, final l...
@Test(expected = IllegalArgumentException.class) public void windowSizeMustNotBeNegative() { TimeWindows.of(-1); }
public static TimeWindows of(final long sizeMs) throws IllegalArgumentException { if (sizeMs <= 0) { throw new IllegalArgumentException("Window size (sizeMs) must be larger than zero."); } return new TimeWindows(sizeMs, sizeMs); }
TimeWindows extends Windows<TimeWindow> { public static TimeWindows of(final long sizeMs) throws IllegalArgumentException { if (sizeMs <= 0) { throw new IllegalArgumentException("Window size (sizeMs) must be larger than zero."); } return new TimeWindows(sizeMs, sizeMs); } }
TimeWindows extends Windows<TimeWindow> { public static TimeWindows of(final long sizeMs) throws IllegalArgumentException { if (sizeMs <= 0) { throw new IllegalArgumentException("Window size (sizeMs) must be larger than zero."); } return new TimeWindows(sizeMs, sizeMs); } private TimeWindows(final long sizeMs, final l...
TimeWindows extends Windows<TimeWindow> { public static TimeWindows of(final long sizeMs) throws IllegalArgumentException { if (sizeMs <= 0) { throw new IllegalArgumentException("Window size (sizeMs) must be larger than zero."); } return new TimeWindows(sizeMs, sizeMs); } private TimeWindows(final long sizeMs, final l...
TimeWindows extends Windows<TimeWindow> { public static TimeWindows of(final long sizeMs) throws IllegalArgumentException { if (sizeMs <= 0) { throw new IllegalArgumentException("Window size (sizeMs) must be larger than zero."); } return new TimeWindows(sizeMs, sizeMs); } private TimeWindows(final long sizeMs, final l...
@Test public void testRepartition() throws Exception { String topic1 = "topic1"; String storeName1 = "storeName1"; final KStreamBuilder builder = new KStreamBuilder(); KTableImpl<String, String, String> table1 = (KTableImpl<String, String, String>) builder.table(stringSerde, stringSerde, topic1, storeName1); KTableImpl...
@Override public <K1, V1> KGroupedTable<K1, V1> groupBy(KeyValueMapper<? super K, ? super V, KeyValue<K1, V1>> selector, Serde<K1> keySerde, Serde<V1> valueSerde) { Objects.requireNonNull(selector, "selector can't be null"); String selectName = topology.newName(SELECT_NAME); KTableProcessorSupplier<K, V, KeyValue<K1, V...
KTableImpl extends AbstractStream<K> implements KTable<K, V> { @Override public <K1, V1> KGroupedTable<K1, V1> groupBy(KeyValueMapper<? super K, ? super V, KeyValue<K1, V1>> selector, Serde<K1> keySerde, Serde<V1> valueSerde) { Objects.requireNonNull(selector, "selector can't be null"); String selectName = topology.new...
KTableImpl extends AbstractStream<K> implements KTable<K, V> { @Override public <K1, V1> KGroupedTable<K1, V1> groupBy(KeyValueMapper<? super K, ? super V, KeyValue<K1, V1>> selector, Serde<K1> keySerde, Serde<V1> valueSerde) { Objects.requireNonNull(selector, "selector can't be null"); String selectName = topology.new...
KTableImpl extends AbstractStream<K> implements KTable<K, V> { @Override public <K1, V1> KGroupedTable<K1, V1> groupBy(KeyValueMapper<? super K, ? super V, KeyValue<K1, V1>> selector, Serde<K1> keySerde, Serde<V1> valueSerde) { Objects.requireNonNull(selector, "selector can't be null"); String selectName = topology.new...
KTableImpl extends AbstractStream<K> implements KTable<K, V> { @Override public <K1, V1> KGroupedTable<K1, V1> groupBy(KeyValueMapper<? super K, ? super V, KeyValue<K1, V1>> selector, Serde<K1> keySerde, Serde<V1> valueSerde) { Objects.requireNonNull(selector, "selector can't be null"); String selectName = topology.new...
@Test public void withSchema() { Schema schema = SchemaBuilder.struct() .field("magic", Schema.INT32_SCHEMA) .field("bool", Schema.BOOLEAN_SCHEMA) .field("byte", Schema.INT8_SCHEMA) .field("short", Schema.INT16_SCHEMA) .field("int", Schema.INT32_SCHEMA) .field("long", Schema.INT64_SCHEMA) .field("float", Schema.FLOAT32...
@Override public R apply(R record) { if (operatingSchema(record) == null) { return applySchemaless(record); } else { return applyWithSchema(record); } }
MaskField implements Transformation<R> { @Override public R apply(R record) { if (operatingSchema(record) == null) { return applySchemaless(record); } else { return applyWithSchema(record); } } }
MaskField implements Transformation<R> { @Override public R apply(R record) { if (operatingSchema(record) == null) { return applySchemaless(record); } else { return applyWithSchema(record); } } }
MaskField implements Transformation<R> { @Override public R apply(R record) { if (operatingSchema(record) == null) { return applySchemaless(record); } else { return applyWithSchema(record); } } @Override void configure(Map<String, ?> props); @Override R apply(R record); @Override ConfigDef config(); @Override void clo...
MaskField implements Transformation<R> { @Override public R apply(R record) { if (operatingSchema(record) == null) { return applySchemaless(record); } else { return applyWithSchema(record); } } @Override void configure(Map<String, ?> props); @Override R apply(R record); @Override ConfigDef config(); @Override void clo...
@Test(expected = NullPointerException.class) public void shouldNotAllowNullSelectorOnToStream() throws Exception { table.toStream(null); }
@Override public KStream<K, V> toStream() { String name = topology.newName(TOSTREAM_NAME); topology.addProcessor(name, new KStreamMapValues<K, Change<V>, V>(new ValueMapper<Change<V>, V>() { @Override public V apply(Change<V> change) { return change.newValue; } }), this.name); return new KStreamImpl<>(topology, name, s...
KTableImpl extends AbstractStream<K> implements KTable<K, V> { @Override public KStream<K, V> toStream() { String name = topology.newName(TOSTREAM_NAME); topology.addProcessor(name, new KStreamMapValues<K, Change<V>, V>(new ValueMapper<Change<V>, V>() { @Override public V apply(Change<V> change) { return change.newValu...
KTableImpl extends AbstractStream<K> implements KTable<K, V> { @Override public KStream<K, V> toStream() { String name = topology.newName(TOSTREAM_NAME); topology.addProcessor(name, new KStreamMapValues<K, Change<V>, V>(new ValueMapper<Change<V>, V>() { @Override public V apply(Change<V> change) { return change.newValu...
KTableImpl extends AbstractStream<K> implements KTable<K, V> { @Override public KStream<K, V> toStream() { String name = topology.newName(TOSTREAM_NAME); topology.addProcessor(name, new KStreamMapValues<K, Change<V>, V>(new ValueMapper<Change<V>, V>() { @Override public V apply(Change<V> change) { return change.newValu...
KTableImpl extends AbstractStream<K> implements KTable<K, V> { @Override public KStream<K, V> toStream() { String name = topology.newName(TOSTREAM_NAME); topology.addProcessor(name, new KStreamMapValues<K, Change<V>, V>(new ValueMapper<Change<V>, V>() { @Override public V apply(Change<V> change) { return change.newValu...
@Test(expected = NullPointerException.class) public void shouldNotAllowNullTopicOnTo() throws Exception { table.to(null); }
@Override public void to(String topic) { to(null, null, null, topic); }
KTableImpl extends AbstractStream<K> implements KTable<K, V> { @Override public void to(String topic) { to(null, null, null, topic); } }
KTableImpl extends AbstractStream<K> implements KTable<K, V> { @Override public void to(String topic) { to(null, null, null, topic); } KTableImpl(KStreamBuilder topology, String name, ProcessorSupplier<?, ?> processorSupplier, Set<String> sourceNodes, ...
KTableImpl extends AbstractStream<K> implements KTable<K, V> { @Override public void to(String topic) { to(null, null, null, topic); } KTableImpl(KStreamBuilder topology, String name, ProcessorSupplier<?, ?> processorSupplier, Set<String> sourceNodes, ...
KTableImpl extends AbstractStream<K> implements KTable<K, V> { @Override public void to(String topic) { to(null, null, null, topic); } KTableImpl(KStreamBuilder topology, String name, ProcessorSupplier<?, ?> processorSupplier, Set<String> sourceNodes, ...
@Test(expected = NullPointerException.class) public void shouldNotAllowNullPredicateOnFilter() throws Exception { table.filter(null); }
@Override public KTable<K, V> filter(final Predicate<? super K, ? super V> predicate) { return filter(predicate, (String) null); }
KTableImpl extends AbstractStream<K> implements KTable<K, V> { @Override public KTable<K, V> filter(final Predicate<? super K, ? super V> predicate) { return filter(predicate, (String) null); } }
KTableImpl extends AbstractStream<K> implements KTable<K, V> { @Override public KTable<K, V> filter(final Predicate<? super K, ? super V> predicate) { return filter(predicate, (String) null); } KTableImpl(KStreamBuilder topology, String name, ProcessorSupplier<?, ?> processor...
KTableImpl extends AbstractStream<K> implements KTable<K, V> { @Override public KTable<K, V> filter(final Predicate<? super K, ? super V> predicate) { return filter(predicate, (String) null); } KTableImpl(KStreamBuilder topology, String name, ProcessorSupplier<?, ?> processor...
KTableImpl extends AbstractStream<K> implements KTable<K, V> { @Override public KTable<K, V> filter(final Predicate<? super K, ? super V> predicate) { return filter(predicate, (String) null); } KTableImpl(KStreamBuilder topology, String name, ProcessorSupplier<?, ?> processor...
@Test(expected = NullPointerException.class) public void shouldNotAllowNullPredicateOnFilterNot() throws Exception { table.filterNot(null); }
@Override public KTable<K, V> filterNot(final Predicate<? super K, ? super V> predicate) { return filterNot(predicate, (String) null); }
KTableImpl extends AbstractStream<K> implements KTable<K, V> { @Override public KTable<K, V> filterNot(final Predicate<? super K, ? super V> predicate) { return filterNot(predicate, (String) null); } }
KTableImpl extends AbstractStream<K> implements KTable<K, V> { @Override public KTable<K, V> filterNot(final Predicate<? super K, ? super V> predicate) { return filterNot(predicate, (String) null); } KTableImpl(KStreamBuilder topology, String name, ProcessorSupplier<?, ?> pro...
KTableImpl extends AbstractStream<K> implements KTable<K, V> { @Override public KTable<K, V> filterNot(final Predicate<? super K, ? super V> predicate) { return filterNot(predicate, (String) null); } KTableImpl(KStreamBuilder topology, String name, ProcessorSupplier<?, ?> pro...
KTableImpl extends AbstractStream<K> implements KTable<K, V> { @Override public KTable<K, V> filterNot(final Predicate<? super K, ? super V> predicate) { return filterNot(predicate, (String) null); } KTableImpl(KStreamBuilder topology, String name, ProcessorSupplier<?, ?> pro...
@Test(expected = NullPointerException.class) public void shouldNotAllowNullMapperOnMapValues() throws Exception { table.mapValues(null); }
@Override public <V1> KTable<K, V1> mapValues(final ValueMapper<? super V, ? extends V1> mapper) { return mapValues(mapper, null, (String) null); }
KTableImpl extends AbstractStream<K> implements KTable<K, V> { @Override public <V1> KTable<K, V1> mapValues(final ValueMapper<? super V, ? extends V1> mapper) { return mapValues(mapper, null, (String) null); } }
KTableImpl extends AbstractStream<K> implements KTable<K, V> { @Override public <V1> KTable<K, V1> mapValues(final ValueMapper<? super V, ? extends V1> mapper) { return mapValues(mapper, null, (String) null); } KTableImpl(KStreamBuilder topology, String name, ProcessorSupplie...
KTableImpl extends AbstractStream<K> implements KTable<K, V> { @Override public <V1> KTable<K, V1> mapValues(final ValueMapper<? super V, ? extends V1> mapper) { return mapValues(mapper, null, (String) null); } KTableImpl(KStreamBuilder topology, String name, ProcessorSupplie...
KTableImpl extends AbstractStream<K> implements KTable<K, V> { @Override public <V1> KTable<K, V1> mapValues(final ValueMapper<? super V, ? extends V1> mapper) { return mapValues(mapper, null, (String) null); } KTableImpl(KStreamBuilder topology, String name, ProcessorSupplie...
@Test(expected = NullPointerException.class) public void shouldNotAllowNullFilePathOnWriteAsText() throws Exception { table.writeAsText(null); }
@Override public void writeAsText(String filePath) { writeAsText(filePath, null, null, null); }
KTableImpl extends AbstractStream<K> implements KTable<K, V> { @Override public void writeAsText(String filePath) { writeAsText(filePath, null, null, null); } }
KTableImpl extends AbstractStream<K> implements KTable<K, V> { @Override public void writeAsText(String filePath) { writeAsText(filePath, null, null, null); } KTableImpl(KStreamBuilder topology, String name, ProcessorSupplier<?, ?> processorSupplier, Set...
KTableImpl extends AbstractStream<K> implements KTable<K, V> { @Override public void writeAsText(String filePath) { writeAsText(filePath, null, null, null); } KTableImpl(KStreamBuilder topology, String name, ProcessorSupplier<?, ?> processorSupplier, Set...
KTableImpl extends AbstractStream<K> implements KTable<K, V> { @Override public void writeAsText(String filePath) { writeAsText(filePath, null, null, null); } KTableImpl(KStreamBuilder topology, String name, ProcessorSupplier<?, ?> processorSupplier, Set...
@Test(expected = TopologyBuilderException.class) public void shouldNotAllowEmptyFilePathOnWriteAsText() throws Exception { table.writeAsText("\t \t"); }
@Override public void writeAsText(String filePath) { writeAsText(filePath, null, null, null); }
KTableImpl extends AbstractStream<K> implements KTable<K, V> { @Override public void writeAsText(String filePath) { writeAsText(filePath, null, null, null); } }
KTableImpl extends AbstractStream<K> implements KTable<K, V> { @Override public void writeAsText(String filePath) { writeAsText(filePath, null, null, null); } KTableImpl(KStreamBuilder topology, String name, ProcessorSupplier<?, ?> processorSupplier, Set...
KTableImpl extends AbstractStream<K> implements KTable<K, V> { @Override public void writeAsText(String filePath) { writeAsText(filePath, null, null, null); } KTableImpl(KStreamBuilder topology, String name, ProcessorSupplier<?, ?> processorSupplier, Set...
KTableImpl extends AbstractStream<K> implements KTable<K, V> { @Override public void writeAsText(String filePath) { writeAsText(filePath, null, null, null); } KTableImpl(KStreamBuilder topology, String name, ProcessorSupplier<?, ?> processorSupplier, Set...
@Test(expected = NullPointerException.class) public void shouldNotAllowNullActionOnForEach() throws Exception { table.foreach(null); }
@Override public void foreach(final ForeachAction<? super K, ? super V> action) { Objects.requireNonNull(action, "action can't be null"); String name = topology.newName(FOREACH_NAME); KStreamPeek<K, Change<V>> processorSupplier = new KStreamPeek<>(new ForeachAction<K, Change<V>>() { @Override public void apply(K key, C...
KTableImpl extends AbstractStream<K> implements KTable<K, V> { @Override public void foreach(final ForeachAction<? super K, ? super V> action) { Objects.requireNonNull(action, "action can't be null"); String name = topology.newName(FOREACH_NAME); KStreamPeek<K, Change<V>> processorSupplier = new KStreamPeek<>(new Forea...
KTableImpl extends AbstractStream<K> implements KTable<K, V> { @Override public void foreach(final ForeachAction<? super K, ? super V> action) { Objects.requireNonNull(action, "action can't be null"); String name = topology.newName(FOREACH_NAME); KStreamPeek<K, Change<V>> processorSupplier = new KStreamPeek<>(new Forea...
KTableImpl extends AbstractStream<K> implements KTable<K, V> { @Override public void foreach(final ForeachAction<? super K, ? super V> action) { Objects.requireNonNull(action, "action can't be null"); String name = topology.newName(FOREACH_NAME); KStreamPeek<K, Change<V>> processorSupplier = new KStreamPeek<>(new Forea...
KTableImpl extends AbstractStream<K> implements KTable<K, V> { @Override public void foreach(final ForeachAction<? super K, ? super V> action) { Objects.requireNonNull(action, "action can't be null"); String name = topology.newName(FOREACH_NAME); KStreamPeek<K, Change<V>> processorSupplier = new KStreamPeek<>(new Forea...
@Test(expected = NullPointerException.class) public void shouldAllowNullTopicInThrough() throws Exception { table.through((String) null, "store"); }
@Override public KTable<K, V> through(final Serde<K> keySerde, final Serde<V> valSerde, final StreamPartitioner<? super K, ? super V> partitioner, final String topic, final String queryableStoreName) { final String internalStoreName = queryableStoreName != null ? queryableStoreName : topology.newStoreName(KTableImpl.TO...
KTableImpl extends AbstractStream<K> implements KTable<K, V> { @Override public KTable<K, V> through(final Serde<K> keySerde, final Serde<V> valSerde, final StreamPartitioner<? super K, ? super V> partitioner, final String topic, final String queryableStoreName) { final String internalStoreName = queryableStoreName != ...
KTableImpl extends AbstractStream<K> implements KTable<K, V> { @Override public KTable<K, V> through(final Serde<K> keySerde, final Serde<V> valSerde, final StreamPartitioner<? super K, ? super V> partitioner, final String topic, final String queryableStoreName) { final String internalStoreName = queryableStoreName != ...
KTableImpl extends AbstractStream<K> implements KTable<K, V> { @Override public KTable<K, V> through(final Serde<K> keySerde, final Serde<V> valSerde, final StreamPartitioner<? super K, ? super V> partitioner, final String topic, final String queryableStoreName) { final String internalStoreName = queryableStoreName != ...
KTableImpl extends AbstractStream<K> implements KTable<K, V> { @Override public KTable<K, V> through(final Serde<K> keySerde, final Serde<V> valSerde, final StreamPartitioner<? super K, ? super V> partitioner, final String topic, final String queryableStoreName) { final String internalStoreName = queryableStoreName != ...
@Test public void shouldAllowNullStoreInThrough() throws Exception { table.through("topic", (String) null); }
@Override public KTable<K, V> through(final Serde<K> keySerde, final Serde<V> valSerde, final StreamPartitioner<? super K, ? super V> partitioner, final String topic, final String queryableStoreName) { final String internalStoreName = queryableStoreName != null ? queryableStoreName : topology.newStoreName(KTableImpl.TO...
KTableImpl extends AbstractStream<K> implements KTable<K, V> { @Override public KTable<K, V> through(final Serde<K> keySerde, final Serde<V> valSerde, final StreamPartitioner<? super K, ? super V> partitioner, final String topic, final String queryableStoreName) { final String internalStoreName = queryableStoreName != ...
KTableImpl extends AbstractStream<K> implements KTable<K, V> { @Override public KTable<K, V> through(final Serde<K> keySerde, final Serde<V> valSerde, final StreamPartitioner<? super K, ? super V> partitioner, final String topic, final String queryableStoreName) { final String internalStoreName = queryableStoreName != ...
KTableImpl extends AbstractStream<K> implements KTable<K, V> { @Override public KTable<K, V> through(final Serde<K> keySerde, final Serde<V> valSerde, final StreamPartitioner<? super K, ? super V> partitioner, final String topic, final String queryableStoreName) { final String internalStoreName = queryableStoreName != ...
KTableImpl extends AbstractStream<K> implements KTable<K, V> { @Override public KTable<K, V> through(final Serde<K> keySerde, final Serde<V> valSerde, final StreamPartitioner<? super K, ? super V> partitioner, final String topic, final String queryableStoreName) { final String internalStoreName = queryableStoreName != ...
@Test(expected = NullPointerException.class) public void shouldNotAllowNullSelectorOnGroupBy() throws Exception { table.groupBy(null); }
@Override public <K1, V1> KGroupedTable<K1, V1> groupBy(KeyValueMapper<? super K, ? super V, KeyValue<K1, V1>> selector, Serde<K1> keySerde, Serde<V1> valueSerde) { Objects.requireNonNull(selector, "selector can't be null"); String selectName = topology.newName(SELECT_NAME); KTableProcessorSupplier<K, V, KeyValue<K1, V...
KTableImpl extends AbstractStream<K> implements KTable<K, V> { @Override public <K1, V1> KGroupedTable<K1, V1> groupBy(KeyValueMapper<? super K, ? super V, KeyValue<K1, V1>> selector, Serde<K1> keySerde, Serde<V1> valueSerde) { Objects.requireNonNull(selector, "selector can't be null"); String selectName = topology.new...
KTableImpl extends AbstractStream<K> implements KTable<K, V> { @Override public <K1, V1> KGroupedTable<K1, V1> groupBy(KeyValueMapper<? super K, ? super V, KeyValue<K1, V1>> selector, Serde<K1> keySerde, Serde<V1> valueSerde) { Objects.requireNonNull(selector, "selector can't be null"); String selectName = topology.new...
KTableImpl extends AbstractStream<K> implements KTable<K, V> { @Override public <K1, V1> KGroupedTable<K1, V1> groupBy(KeyValueMapper<? super K, ? super V, KeyValue<K1, V1>> selector, Serde<K1> keySerde, Serde<V1> valueSerde) { Objects.requireNonNull(selector, "selector can't be null"); String selectName = topology.new...
KTableImpl extends AbstractStream<K> implements KTable<K, V> { @Override public <K1, V1> KGroupedTable<K1, V1> groupBy(KeyValueMapper<? super K, ? super V, KeyValue<K1, V1>> selector, Serde<K1> keySerde, Serde<V1> valueSerde) { Objects.requireNonNull(selector, "selector can't be null"); String selectName = topology.new...
@Test(expected = NullPointerException.class) public void shouldNotAllowNullOtherTableOnJoin() throws Exception { table.join(null, MockValueJoiner.TOSTRING_JOINER); }
@Override public <V1, R> KTable<K, R> join(final KTable<K, V1> other, final ValueJoiner<? super V, ? super V1, ? extends R> joiner) { return doJoin(other, joiner, false, false, null, (String) null); }
KTableImpl extends AbstractStream<K> implements KTable<K, V> { @Override public <V1, R> KTable<K, R> join(final KTable<K, V1> other, final ValueJoiner<? super V, ? super V1, ? extends R> joiner) { return doJoin(other, joiner, false, false, null, (String) null); } }
KTableImpl extends AbstractStream<K> implements KTable<K, V> { @Override public <V1, R> KTable<K, R> join(final KTable<K, V1> other, final ValueJoiner<? super V, ? super V1, ? extends R> joiner) { return doJoin(other, joiner, false, false, null, (String) null); } KTableImpl(KStreamBuilder topology, ...
KTableImpl extends AbstractStream<K> implements KTable<K, V> { @Override public <V1, R> KTable<K, R> join(final KTable<K, V1> other, final ValueJoiner<? super V, ? super V1, ? extends R> joiner) { return doJoin(other, joiner, false, false, null, (String) null); } KTableImpl(KStreamBuilder topology, ...
KTableImpl extends AbstractStream<K> implements KTable<K, V> { @Override public <V1, R> KTable<K, R> join(final KTable<K, V1> other, final ValueJoiner<? super V, ? super V1, ? extends R> joiner) { return doJoin(other, joiner, false, false, null, (String) null); } KTableImpl(KStreamBuilder topology, ...
@Test public void shouldAllowNullStoreInJoin() throws Exception { table.join(table, MockValueJoiner.TOSTRING_JOINER, null, (String) null); }
@Override public <V1, R> KTable<K, R> join(final KTable<K, V1> other, final ValueJoiner<? super V, ? super V1, ? extends R> joiner) { return doJoin(other, joiner, false, false, null, (String) null); }
KTableImpl extends AbstractStream<K> implements KTable<K, V> { @Override public <V1, R> KTable<K, R> join(final KTable<K, V1> other, final ValueJoiner<? super V, ? super V1, ? extends R> joiner) { return doJoin(other, joiner, false, false, null, (String) null); } }
KTableImpl extends AbstractStream<K> implements KTable<K, V> { @Override public <V1, R> KTable<K, R> join(final KTable<K, V1> other, final ValueJoiner<? super V, ? super V1, ? extends R> joiner) { return doJoin(other, joiner, false, false, null, (String) null); } KTableImpl(KStreamBuilder topology, ...
KTableImpl extends AbstractStream<K> implements KTable<K, V> { @Override public <V1, R> KTable<K, R> join(final KTable<K, V1> other, final ValueJoiner<? super V, ? super V1, ? extends R> joiner) { return doJoin(other, joiner, false, false, null, (String) null); } KTableImpl(KStreamBuilder topology, ...
KTableImpl extends AbstractStream<K> implements KTable<K, V> { @Override public <V1, R> KTable<K, R> join(final KTable<K, V1> other, final ValueJoiner<? super V, ? super V1, ? extends R> joiner) { return doJoin(other, joiner, false, false, null, (String) null); } KTableImpl(KStreamBuilder topology, ...
@Test(expected = NullPointerException.class) public void shouldNotAllowNullStoreSupplierInJoin() throws Exception { table.join(table, MockValueJoiner.TOSTRING_JOINER, (StateStoreSupplier<KeyValueStore>) null); }
@Override public <V1, R> KTable<K, R> join(final KTable<K, V1> other, final ValueJoiner<? super V, ? super V1, ? extends R> joiner) { return doJoin(other, joiner, false, false, null, (String) null); }
KTableImpl extends AbstractStream<K> implements KTable<K, V> { @Override public <V1, R> KTable<K, R> join(final KTable<K, V1> other, final ValueJoiner<? super V, ? super V1, ? extends R> joiner) { return doJoin(other, joiner, false, false, null, (String) null); } }
KTableImpl extends AbstractStream<K> implements KTable<K, V> { @Override public <V1, R> KTable<K, R> join(final KTable<K, V1> other, final ValueJoiner<? super V, ? super V1, ? extends R> joiner) { return doJoin(other, joiner, false, false, null, (String) null); } KTableImpl(KStreamBuilder topology, ...
KTableImpl extends AbstractStream<K> implements KTable<K, V> { @Override public <V1, R> KTable<K, R> join(final KTable<K, V1> other, final ValueJoiner<? super V, ? super V1, ? extends R> joiner) { return doJoin(other, joiner, false, false, null, (String) null); } KTableImpl(KStreamBuilder topology, ...
KTableImpl extends AbstractStream<K> implements KTable<K, V> { @Override public <V1, R> KTable<K, R> join(final KTable<K, V1> other, final ValueJoiner<? super V, ? super V1, ? extends R> joiner) { return doJoin(other, joiner, false, false, null, (String) null); } KTableImpl(KStreamBuilder topology, ...
@Test(expected = NullPointerException.class) public void shouldNotAllowNullStoreSupplierInLeftJoin() throws Exception { table.leftJoin(table, MockValueJoiner.TOSTRING_JOINER, (StateStoreSupplier<KeyValueStore>) null); }
@Override public <V1, R> KTable<K, R> leftJoin(final KTable<K, V1> other, final ValueJoiner<? super V, ? super V1, ? extends R> joiner) { return doJoin(other, joiner, true, false, null, (String) null); }
KTableImpl extends AbstractStream<K> implements KTable<K, V> { @Override public <V1, R> KTable<K, R> leftJoin(final KTable<K, V1> other, final ValueJoiner<? super V, ? super V1, ? extends R> joiner) { return doJoin(other, joiner, true, false, null, (String) null); } }
KTableImpl extends AbstractStream<K> implements KTable<K, V> { @Override public <V1, R> KTable<K, R> leftJoin(final KTable<K, V1> other, final ValueJoiner<? super V, ? super V1, ? extends R> joiner) { return doJoin(other, joiner, true, false, null, (String) null); } KTableImpl(KStreamBuilder topology, ...
KTableImpl extends AbstractStream<K> implements KTable<K, V> { @Override public <V1, R> KTable<K, R> leftJoin(final KTable<K, V1> other, final ValueJoiner<? super V, ? super V1, ? extends R> joiner) { return doJoin(other, joiner, true, false, null, (String) null); } KTableImpl(KStreamBuilder topology, ...
KTableImpl extends AbstractStream<K> implements KTable<K, V> { @Override public <V1, R> KTable<K, R> leftJoin(final KTable<K, V1> other, final ValueJoiner<? super V, ? super V1, ? extends R> joiner) { return doJoin(other, joiner, true, false, null, (String) null); } KTableImpl(KStreamBuilder topology, ...
@Test(expected = NullPointerException.class) public void shouldNotAllowNullStoreSupplierInOuterJoin() throws Exception { table.outerJoin(table, MockValueJoiner.TOSTRING_JOINER, (StateStoreSupplier<KeyValueStore>) null); }
@Override public <V1, R> KTable<K, R> outerJoin(final KTable<K, V1> other, final ValueJoiner<? super V, ? super V1, ? extends R> joiner) { return doJoin(other, joiner, true, true, null, (String) null); }
KTableImpl extends AbstractStream<K> implements KTable<K, V> { @Override public <V1, R> KTable<K, R> outerJoin(final KTable<K, V1> other, final ValueJoiner<? super V, ? super V1, ? extends R> joiner) { return doJoin(other, joiner, true, true, null, (String) null); } }
KTableImpl extends AbstractStream<K> implements KTable<K, V> { @Override public <V1, R> KTable<K, R> outerJoin(final KTable<K, V1> other, final ValueJoiner<? super V, ? super V1, ? extends R> joiner) { return doJoin(other, joiner, true, true, null, (String) null); } KTableImpl(KStreamBuilder topology, ...
KTableImpl extends AbstractStream<K> implements KTable<K, V> { @Override public <V1, R> KTable<K, R> outerJoin(final KTable<K, V1> other, final ValueJoiner<? super V, ? super V1, ? extends R> joiner) { return doJoin(other, joiner, true, true, null, (String) null); } KTableImpl(KStreamBuilder topology, ...
KTableImpl extends AbstractStream<K> implements KTable<K, V> { @Override public <V1, R> KTable<K, R> outerJoin(final KTable<K, V1> other, final ValueJoiner<? super V, ? super V1, ? extends R> joiner) { return doJoin(other, joiner, true, true, null, (String) null); } KTableImpl(KStreamBuilder topology, ...
@Test(expected = NullPointerException.class) public void shouldNotAllowNullJoinerJoin() throws Exception { table.join(table, null); }
@Override public <V1, R> KTable<K, R> join(final KTable<K, V1> other, final ValueJoiner<? super V, ? super V1, ? extends R> joiner) { return doJoin(other, joiner, false, false, null, (String) null); }
KTableImpl extends AbstractStream<K> implements KTable<K, V> { @Override public <V1, R> KTable<K, R> join(final KTable<K, V1> other, final ValueJoiner<? super V, ? super V1, ? extends R> joiner) { return doJoin(other, joiner, false, false, null, (String) null); } }
KTableImpl extends AbstractStream<K> implements KTable<K, V> { @Override public <V1, R> KTable<K, R> join(final KTable<K, V1> other, final ValueJoiner<? super V, ? super V1, ? extends R> joiner) { return doJoin(other, joiner, false, false, null, (String) null); } KTableImpl(KStreamBuilder topology, ...
KTableImpl extends AbstractStream<K> implements KTable<K, V> { @Override public <V1, R> KTable<K, R> join(final KTable<K, V1> other, final ValueJoiner<? super V, ? super V1, ? extends R> joiner) { return doJoin(other, joiner, false, false, null, (String) null); } KTableImpl(KStreamBuilder topology, ...
KTableImpl extends AbstractStream<K> implements KTable<K, V> { @Override public <V1, R> KTable<K, R> join(final KTable<K, V1> other, final ValueJoiner<? super V, ? super V1, ? extends R> joiner) { return doJoin(other, joiner, false, false, null, (String) null); } KTableImpl(KStreamBuilder topology, ...
@Test(expected = NullPointerException.class) public void shouldNotAllowNullOtherTableOnOuterJoin() throws Exception { table.outerJoin(null, MockValueJoiner.TOSTRING_JOINER); }
@Override public <V1, R> KTable<K, R> outerJoin(final KTable<K, V1> other, final ValueJoiner<? super V, ? super V1, ? extends R> joiner) { return doJoin(other, joiner, true, true, null, (String) null); }
KTableImpl extends AbstractStream<K> implements KTable<K, V> { @Override public <V1, R> KTable<K, R> outerJoin(final KTable<K, V1> other, final ValueJoiner<? super V, ? super V1, ? extends R> joiner) { return doJoin(other, joiner, true, true, null, (String) null); } }
KTableImpl extends AbstractStream<K> implements KTable<K, V> { @Override public <V1, R> KTable<K, R> outerJoin(final KTable<K, V1> other, final ValueJoiner<? super V, ? super V1, ? extends R> joiner) { return doJoin(other, joiner, true, true, null, (String) null); } KTableImpl(KStreamBuilder topology, ...
KTableImpl extends AbstractStream<K> implements KTable<K, V> { @Override public <V1, R> KTable<K, R> outerJoin(final KTable<K, V1> other, final ValueJoiner<? super V, ? super V1, ? extends R> joiner) { return doJoin(other, joiner, true, true, null, (String) null); } KTableImpl(KStreamBuilder topology, ...
KTableImpl extends AbstractStream<K> implements KTable<K, V> { @Override public <V1, R> KTable<K, R> outerJoin(final KTable<K, V1> other, final ValueJoiner<? super V, ? super V1, ? extends R> joiner) { return doJoin(other, joiner, true, true, null, (String) null); } KTableImpl(KStreamBuilder topology, ...
@Test(expected = NullPointerException.class) public void shouldNotAllowNullJoinerOnOuterJoin() throws Exception { table.outerJoin(table, null); }
@Override public <V1, R> KTable<K, R> outerJoin(final KTable<K, V1> other, final ValueJoiner<? super V, ? super V1, ? extends R> joiner) { return doJoin(other, joiner, true, true, null, (String) null); }
KTableImpl extends AbstractStream<K> implements KTable<K, V> { @Override public <V1, R> KTable<K, R> outerJoin(final KTable<K, V1> other, final ValueJoiner<? super V, ? super V1, ? extends R> joiner) { return doJoin(other, joiner, true, true, null, (String) null); } }
KTableImpl extends AbstractStream<K> implements KTable<K, V> { @Override public <V1, R> KTable<K, R> outerJoin(final KTable<K, V1> other, final ValueJoiner<? super V, ? super V1, ? extends R> joiner) { return doJoin(other, joiner, true, true, null, (String) null); } KTableImpl(KStreamBuilder topology, ...
KTableImpl extends AbstractStream<K> implements KTable<K, V> { @Override public <V1, R> KTable<K, R> outerJoin(final KTable<K, V1> other, final ValueJoiner<? super V, ? super V1, ? extends R> joiner) { return doJoin(other, joiner, true, true, null, (String) null); } KTableImpl(KStreamBuilder topology, ...
KTableImpl extends AbstractStream<K> implements KTable<K, V> { @Override public <V1, R> KTable<K, R> outerJoin(final KTable<K, V1> other, final ValueJoiner<? super V, ? super V1, ? extends R> joiner) { return doJoin(other, joiner, true, true, null, (String) null); } KTableImpl(KStreamBuilder topology, ...
@Test(expected = NullPointerException.class) public void shouldNotAllowNullJoinerOnLeftJoin() throws Exception { table.leftJoin(table, null); }
@Override public <V1, R> KTable<K, R> leftJoin(final KTable<K, V1> other, final ValueJoiner<? super V, ? super V1, ? extends R> joiner) { return doJoin(other, joiner, true, false, null, (String) null); }
KTableImpl extends AbstractStream<K> implements KTable<K, V> { @Override public <V1, R> KTable<K, R> leftJoin(final KTable<K, V1> other, final ValueJoiner<? super V, ? super V1, ? extends R> joiner) { return doJoin(other, joiner, true, false, null, (String) null); } }
KTableImpl extends AbstractStream<K> implements KTable<K, V> { @Override public <V1, R> KTable<K, R> leftJoin(final KTable<K, V1> other, final ValueJoiner<? super V, ? super V1, ? extends R> joiner) { return doJoin(other, joiner, true, false, null, (String) null); } KTableImpl(KStreamBuilder topology, ...
KTableImpl extends AbstractStream<K> implements KTable<K, V> { @Override public <V1, R> KTable<K, R> leftJoin(final KTable<K, V1> other, final ValueJoiner<? super V, ? super V1, ? extends R> joiner) { return doJoin(other, joiner, true, false, null, (String) null); } KTableImpl(KStreamBuilder topology, ...
KTableImpl extends AbstractStream<K> implements KTable<K, V> { @Override public <V1, R> KTable<K, R> leftJoin(final KTable<K, V1> other, final ValueJoiner<? super V, ? super V1, ? extends R> joiner) { return doJoin(other, joiner, true, false, null, (String) null); } KTableImpl(KStreamBuilder topology, ...
@Test public void updateSchemaOfNonStruct() { Object value = new Integer(1); Object updatedValue = SetSchemaMetadata.updateSchemaIn(value, Schema.INT32_SCHEMA); assertSame(value, updatedValue); }
protected static Object updateSchemaIn(Object keyOrValue, Schema updatedSchema) { if (keyOrValue instanceof Struct) { Struct origStruct = (Struct) keyOrValue; Struct newStruct = new Struct(updatedSchema); for (Field field : updatedSchema.fields()) { newStruct.put(field, origStruct.get(field)); } return newStruct; } ret...
SetSchemaMetadata implements Transformation<R> { protected static Object updateSchemaIn(Object keyOrValue, Schema updatedSchema) { if (keyOrValue instanceof Struct) { Struct origStruct = (Struct) keyOrValue; Struct newStruct = new Struct(updatedSchema); for (Field field : updatedSchema.fields()) { newStruct.put(field, ...
SetSchemaMetadata implements Transformation<R> { protected static Object updateSchemaIn(Object keyOrValue, Schema updatedSchema) { if (keyOrValue instanceof Struct) { Struct origStruct = (Struct) keyOrValue; Struct newStruct = new Struct(updatedSchema); for (Field field : updatedSchema.fields()) { newStruct.put(field, ...
SetSchemaMetadata implements Transformation<R> { protected static Object updateSchemaIn(Object keyOrValue, Schema updatedSchema) { if (keyOrValue instanceof Struct) { Struct origStruct = (Struct) keyOrValue; Struct newStruct = new Struct(updatedSchema); for (Field field : updatedSchema.fields()) { newStruct.put(field, ...
SetSchemaMetadata implements Transformation<R> { protected static Object updateSchemaIn(Object keyOrValue, Schema updatedSchema) { if (keyOrValue instanceof Struct) { Struct origStruct = (Struct) keyOrValue; Struct newStruct = new Struct(updatedSchema); for (Field field : updatedSchema.fields()) { newStruct.put(field, ...
@Test(expected = NullPointerException.class) public void shouldNotAllowNullOtherTableOnLeftJoin() throws Exception { table.leftJoin(null, MockValueJoiner.TOSTRING_JOINER); }
@Override public <V1, R> KTable<K, R> leftJoin(final KTable<K, V1> other, final ValueJoiner<? super V, ? super V1, ? extends R> joiner) { return doJoin(other, joiner, true, false, null, (String) null); }
KTableImpl extends AbstractStream<K> implements KTable<K, V> { @Override public <V1, R> KTable<K, R> leftJoin(final KTable<K, V1> other, final ValueJoiner<? super V, ? super V1, ? extends R> joiner) { return doJoin(other, joiner, true, false, null, (String) null); } }
KTableImpl extends AbstractStream<K> implements KTable<K, V> { @Override public <V1, R> KTable<K, R> leftJoin(final KTable<K, V1> other, final ValueJoiner<? super V, ? super V1, ? extends R> joiner) { return doJoin(other, joiner, true, false, null, (String) null); } KTableImpl(KStreamBuilder topology, ...
KTableImpl extends AbstractStream<K> implements KTable<K, V> { @Override public <V1, R> KTable<K, R> leftJoin(final KTable<K, V1> other, final ValueJoiner<? super V, ? super V1, ? extends R> joiner) { return doJoin(other, joiner, true, false, null, (String) null); } KTableImpl(KStreamBuilder topology, ...
KTableImpl extends AbstractStream<K> implements KTable<K, V> { @Override public <V1, R> KTable<K, R> leftJoin(final KTable<K, V1> other, final ValueJoiner<? super V, ? super V1, ? extends R> joiner) { return doJoin(other, joiner, true, false, null, (String) null); } KTableImpl(KStreamBuilder topology, ...
@Test public void testCopartitioning() { Random rand = new Random(); DefaultPartitioner defaultPartitioner = new DefaultPartitioner(); WindowedSerializer<Integer> windowedSerializer = new WindowedSerializer<>(intSerializer); WindowedStreamPartitioner<Integer, String> streamPartitioner = new WindowedStreamPartitioner<>(...
public Integer partition(final Windowed<K> windowedKey, final V value, final int numPartitions) { final byte[] keyBytes = serializer.serializeBaseKey(topic, windowedKey); return toPositive(Utils.murmur2(keyBytes)) % numPartitions; }
WindowedStreamPartitioner implements StreamPartitioner<Windowed<K>, V> { public Integer partition(final Windowed<K> windowedKey, final V value, final int numPartitions) { final byte[] keyBytes = serializer.serializeBaseKey(topic, windowedKey); return toPositive(Utils.murmur2(keyBytes)) % numPartitions; } }
WindowedStreamPartitioner implements StreamPartitioner<Windowed<K>, V> { public Integer partition(final Windowed<K> windowedKey, final V value, final int numPartitions) { final byte[] keyBytes = serializer.serializeBaseKey(topic, windowedKey); return toPositive(Utils.murmur2(keyBytes)) % numPartitions; } WindowedStream...
WindowedStreamPartitioner implements StreamPartitioner<Windowed<K>, V> { public Integer partition(final Windowed<K> windowedKey, final V value, final int numPartitions) { final byte[] keyBytes = serializer.serializeBaseKey(topic, windowedKey); return toPositive(Utils.murmur2(keyBytes)) % numPartitions; } WindowedStream...
WindowedStreamPartitioner implements StreamPartitioner<Windowed<K>, V> { public Integer partition(final Windowed<K> windowedKey, final V value, final int numPartitions) { final byte[] keyBytes = serializer.serializeBaseKey(topic, windowedKey); return toPositive(Utils.murmur2(keyBytes)) % numPartitions; } WindowedStream...
@Test public void testJoin() throws Exception { KStreamBuilder builder = new KStreamBuilder(); final int[] expectedKeys = new int[]{0, 1, 2, 3}; KTable<Integer, String> table1; KTable<Integer, String> table2; KTable<Integer, String> joined; MockProcessorSupplier<Integer, String> processor; processor = new MockProcessor...
@Override public Processor<K, Change<V1>> get() { return new KTableKTableOuterJoinProcessor(valueGetterSupplier2.get()); }
KTableKTableOuterJoin extends KTableKTableAbstractJoin<K, R, V1, V2> { @Override public Processor<K, Change<V1>> get() { return new KTableKTableOuterJoinProcessor(valueGetterSupplier2.get()); } }
KTableKTableOuterJoin extends KTableKTableAbstractJoin<K, R, V1, V2> { @Override public Processor<K, Change<V1>> get() { return new KTableKTableOuterJoinProcessor(valueGetterSupplier2.get()); } KTableKTableOuterJoin(KTableImpl<K, ?, V1> table1, KTableImpl<K, ?, V2> table2, ValueJoiner<? super V1, ? super V2, ? extends ...
KTableKTableOuterJoin extends KTableKTableAbstractJoin<K, R, V1, V2> { @Override public Processor<K, Change<V1>> get() { return new KTableKTableOuterJoinProcessor(valueGetterSupplier2.get()); } KTableKTableOuterJoin(KTableImpl<K, ?, V1> table1, KTableImpl<K, ?, V2> table2, ValueJoiner<? super V1, ? super V2, ? extends ...
KTableKTableOuterJoin extends KTableKTableAbstractJoin<K, R, V1, V2> { @Override public Processor<K, Change<V1>> get() { return new KTableKTableOuterJoinProcessor(valueGetterSupplier2.get()); } KTableKTableOuterJoin(KTableImpl<K, ?, V1> table1, KTableImpl<K, ?, V2> table2, ValueJoiner<? super V1, ? super V2, ? extends ...
@Test public void shouldForwardToCorrectProcessorNodeWhenMultiCacheEvictions() throws Exception { final String tableOne = "tableOne"; final String tableTwo = "tableTwo"; final KStreamBuilder builder = new KStreamBuilder(); final String reduceTopic = "TestDriver-reducer-store-repartition"; final Map<String, Long> reduce...
@Override public Processor<K, Change<V>> get() { return new KTableAggregateProcessor(); }
KTableAggregate implements KTableProcessorSupplier<K, V, T> { @Override public Processor<K, Change<V>> get() { return new KTableAggregateProcessor(); } }
KTableAggregate implements KTableProcessorSupplier<K, V, T> { @Override public Processor<K, Change<V>> get() { return new KTableAggregateProcessor(); } KTableAggregate(String storeName, Initializer<T> initializer, Aggregator<? super K, ? super V, T> add, Aggregator<? super K, ? super V, T> remove); }
KTableAggregate implements KTableProcessorSupplier<K, V, T> { @Override public Processor<K, Change<V>> get() { return new KTableAggregateProcessor(); } KTableAggregate(String storeName, Initializer<T> initializer, Aggregator<? super K, ? super V, T> add, Aggregator<? super K, ? super V, T> remove); @Override void enabl...
KTableAggregate implements KTableProcessorSupplier<K, V, T> { @Override public Processor<K, Change<V>> get() { return new KTableAggregateProcessor(); } KTableAggregate(String storeName, Initializer<T> initializer, Aggregator<? super K, ? super V, T> add, Aggregator<? super K, ? super V, T> remove); @Override void enabl...
@Test public void testFlatMap() { KStreamBuilder builder = new KStreamBuilder(); KeyValueMapper<Number, Object, Iterable<KeyValue<String, String>>> mapper = new KeyValueMapper<Number, Object, Iterable<KeyValue<String, String>>>() { @Override public Iterable<KeyValue<String, String>> apply(Number key, Object value) { Ar...
@Override public Processor<K, V> get() { return new KStreamFlatMapProcessor(); }
KStreamFlatMap implements ProcessorSupplier<K, V> { @Override public Processor<K, V> get() { return new KStreamFlatMapProcessor(); } }
KStreamFlatMap implements ProcessorSupplier<K, V> { @Override public Processor<K, V> get() { return new KStreamFlatMapProcessor(); } KStreamFlatMap(KeyValueMapper<? super K, ? super V, ? extends Iterable<? extends KeyValue<? extends K1, ? extends V1>>> mapper); }
KStreamFlatMap implements ProcessorSupplier<K, V> { @Override public Processor<K, V> get() { return new KStreamFlatMapProcessor(); } KStreamFlatMap(KeyValueMapper<? super K, ? super V, ? extends Iterable<? extends KeyValue<? extends K1, ? extends V1>>> mapper); @Override Processor<K, V> get(); }
KStreamFlatMap implements ProcessorSupplier<K, V> { @Override public Processor<K, V> get() { return new KStreamFlatMapProcessor(); } KStreamFlatMap(KeyValueMapper<? super K, ? super V, ? extends Iterable<? extends KeyValue<? extends K1, ? extends V1>>> mapper); @Override Processor<K, V> get(); }
@Test public void testFlatMapValues() { KStreamBuilder builder = new KStreamBuilder(); ValueMapper<Number, Iterable<String>> mapper = new ValueMapper<Number, Iterable<String>>() { @Override public Iterable<String> apply(Number value) { ArrayList<String> result = new ArrayList<String>(); result.add("v" + value); result....
@Override public Processor<K, V> get() { return new KStreamFlatMapValuesProcessor(); }
KStreamFlatMapValues implements ProcessorSupplier<K, V> { @Override public Processor<K, V> get() { return new KStreamFlatMapValuesProcessor(); } }
KStreamFlatMapValues implements ProcessorSupplier<K, V> { @Override public Processor<K, V> get() { return new KStreamFlatMapValuesProcessor(); } KStreamFlatMapValues(ValueMapper<? super V, ? extends Iterable<? extends V1>> mapper); }
KStreamFlatMapValues implements ProcessorSupplier<K, V> { @Override public Processor<K, V> get() { return new KStreamFlatMapValuesProcessor(); } KStreamFlatMapValues(ValueMapper<? super V, ? extends Iterable<? extends V1>> mapper); @Override Processor<K, V> get(); }
KStreamFlatMapValues implements ProcessorSupplier<K, V> { @Override public Processor<K, V> get() { return new KStreamFlatMapValuesProcessor(); } KStreamFlatMapValues(ValueMapper<? super V, ? extends Iterable<? extends V1>> mapper); @Override Processor<K, V> get(); }
@Test public void testToWithNullValueSerdeDoesntNPE() { final KStreamBuilder builder = new KStreamBuilder(); final KStream<String, String> inputStream = builder.stream(stringSerde, stringSerde, "input"); inputStream.to(stringSerde, null, "output"); }
@Override public void to(String topic) { to(null, null, null, topic); }
KStreamImpl extends AbstractStream<K> implements KStream<K, V> { @Override public void to(String topic) { to(null, null, null, topic); } }
KStreamImpl extends AbstractStream<K> implements KStream<K, V> { @Override public void to(String topic) { to(null, null, null, topic); } KStreamImpl(KStreamBuilder topology, String name, Set<String> sourceNodes, boolean repartitionRequired); }
KStreamImpl extends AbstractStream<K> implements KStream<K, V> { @Override public void to(String topic) { to(null, null, null, topic); } KStreamImpl(KStreamBuilder topology, String name, Set<String> sourceNodes, boolean repartitionRequired); @Override KStream<K, V> filter(Predicate<? super K, ? s...
KStreamImpl extends AbstractStream<K> implements KStream<K, V> { @Override public void to(String topic) { to(null, null, null, topic); } KStreamImpl(KStreamBuilder topology, String name, Set<String> sourceNodes, boolean repartitionRequired); @Override KStream<K, V> filter(Predicate<? super K, ? s...
@Test(expected = NullPointerException.class) public void shouldNotAllowNullPredicateOnFilter() throws Exception { testStream.filter(null); }
@Override public KStream<K, V> filter(Predicate<? super K, ? super V> predicate) { Objects.requireNonNull(predicate, "predicate can't be null"); String name = topology.newName(FILTER_NAME); topology.addProcessor(name, new KStreamFilter<>(predicate, false), this.name); return new KStreamImpl<>(topology, name, sourceNode...
KStreamImpl extends AbstractStream<K> implements KStream<K, V> { @Override public KStream<K, V> filter(Predicate<? super K, ? super V> predicate) { Objects.requireNonNull(predicate, "predicate can't be null"); String name = topology.newName(FILTER_NAME); topology.addProcessor(name, new KStreamFilter<>(predicate, false)...
KStreamImpl extends AbstractStream<K> implements KStream<K, V> { @Override public KStream<K, V> filter(Predicate<? super K, ? super V> predicate) { Objects.requireNonNull(predicate, "predicate can't be null"); String name = topology.newName(FILTER_NAME); topology.addProcessor(name, new KStreamFilter<>(predicate, false)...
KStreamImpl extends AbstractStream<K> implements KStream<K, V> { @Override public KStream<K, V> filter(Predicate<? super K, ? super V> predicate) { Objects.requireNonNull(predicate, "predicate can't be null"); String name = topology.newName(FILTER_NAME); topology.addProcessor(name, new KStreamFilter<>(predicate, false)...
KStreamImpl extends AbstractStream<K> implements KStream<K, V> { @Override public KStream<K, V> filter(Predicate<? super K, ? super V> predicate) { Objects.requireNonNull(predicate, "predicate can't be null"); String name = topology.newName(FILTER_NAME); topology.addProcessor(name, new KStreamFilter<>(predicate, false)...
@Test(expected = NullPointerException.class) public void shouldNotAllowNullPredicateOnFilterNot() throws Exception { testStream.filterNot(null); }
@Override public KStream<K, V> filterNot(final Predicate<? super K, ? super V> predicate) { Objects.requireNonNull(predicate, "predicate can't be null"); String name = topology.newName(FILTER_NAME); topology.addProcessor(name, new KStreamFilter<>(predicate, true), this.name); return new KStreamImpl<>(topology, name, so...
KStreamImpl extends AbstractStream<K> implements KStream<K, V> { @Override public KStream<K, V> filterNot(final Predicate<? super K, ? super V> predicate) { Objects.requireNonNull(predicate, "predicate can't be null"); String name = topology.newName(FILTER_NAME); topology.addProcessor(name, new KStreamFilter<>(predicat...
KStreamImpl extends AbstractStream<K> implements KStream<K, V> { @Override public KStream<K, V> filterNot(final Predicate<? super K, ? super V> predicate) { Objects.requireNonNull(predicate, "predicate can't be null"); String name = topology.newName(FILTER_NAME); topology.addProcessor(name, new KStreamFilter<>(predicat...
KStreamImpl extends AbstractStream<K> implements KStream<K, V> { @Override public KStream<K, V> filterNot(final Predicate<? super K, ? super V> predicate) { Objects.requireNonNull(predicate, "predicate can't be null"); String name = topology.newName(FILTER_NAME); topology.addProcessor(name, new KStreamFilter<>(predicat...
KStreamImpl extends AbstractStream<K> implements KStream<K, V> { @Override public KStream<K, V> filterNot(final Predicate<? super K, ? super V> predicate) { Objects.requireNonNull(predicate, "predicate can't be null"); String name = topology.newName(FILTER_NAME); topology.addProcessor(name, new KStreamFilter<>(predicat...
@Test(expected = NullPointerException.class) public void shouldNotAllowNullMapperOnSelectKey() throws Exception { testStream.selectKey(null); }
@Override public <K1> KStream<K1, V> selectKey(final KeyValueMapper<? super K, ? super V, ? extends K1> mapper) { Objects.requireNonNull(mapper, "mapper can't be null"); return new KStreamImpl<>(topology, internalSelectKey(mapper), sourceNodes, true); }
KStreamImpl extends AbstractStream<K> implements KStream<K, V> { @Override public <K1> KStream<K1, V> selectKey(final KeyValueMapper<? super K, ? super V, ? extends K1> mapper) { Objects.requireNonNull(mapper, "mapper can't be null"); return new KStreamImpl<>(topology, internalSelectKey(mapper), sourceNodes, true); } }
KStreamImpl extends AbstractStream<K> implements KStream<K, V> { @Override public <K1> KStream<K1, V> selectKey(final KeyValueMapper<? super K, ? super V, ? extends K1> mapper) { Objects.requireNonNull(mapper, "mapper can't be null"); return new KStreamImpl<>(topology, internalSelectKey(mapper), sourceNodes, true); } K...
KStreamImpl extends AbstractStream<K> implements KStream<K, V> { @Override public <K1> KStream<K1, V> selectKey(final KeyValueMapper<? super K, ? super V, ? extends K1> mapper) { Objects.requireNonNull(mapper, "mapper can't be null"); return new KStreamImpl<>(topology, internalSelectKey(mapper), sourceNodes, true); } K...
KStreamImpl extends AbstractStream<K> implements KStream<K, V> { @Override public <K1> KStream<K1, V> selectKey(final KeyValueMapper<? super K, ? super V, ? extends K1> mapper) { Objects.requireNonNull(mapper, "mapper can't be null"); return new KStreamImpl<>(topology, internalSelectKey(mapper), sourceNodes, true); } K...
@Test(expected = NullPointerException.class) public void shouldNotAllowNullMapperOnMap() throws Exception { testStream.map(null); }
@Override public <K1, V1> KStream<K1, V1> map(KeyValueMapper<? super K, ? super V, ? extends KeyValue<? extends K1, ? extends V1>> mapper) { Objects.requireNonNull(mapper, "mapper can't be null"); String name = topology.newName(MAP_NAME); topology.addProcessor(name, new KStreamMap<K, V, K1, V1>(mapper), this.name); ret...
KStreamImpl extends AbstractStream<K> implements KStream<K, V> { @Override public <K1, V1> KStream<K1, V1> map(KeyValueMapper<? super K, ? super V, ? extends KeyValue<? extends K1, ? extends V1>> mapper) { Objects.requireNonNull(mapper, "mapper can't be null"); String name = topology.newName(MAP_NAME); topology.addProc...
KStreamImpl extends AbstractStream<K> implements KStream<K, V> { @Override public <K1, V1> KStream<K1, V1> map(KeyValueMapper<? super K, ? super V, ? extends KeyValue<? extends K1, ? extends V1>> mapper) { Objects.requireNonNull(mapper, "mapper can't be null"); String name = topology.newName(MAP_NAME); topology.addProc...
KStreamImpl extends AbstractStream<K> implements KStream<K, V> { @Override public <K1, V1> KStream<K1, V1> map(KeyValueMapper<? super K, ? super V, ? extends KeyValue<? extends K1, ? extends V1>> mapper) { Objects.requireNonNull(mapper, "mapper can't be null"); String name = topology.newName(MAP_NAME); topology.addProc...
KStreamImpl extends AbstractStream<K> implements KStream<K, V> { @Override public <K1, V1> KStream<K1, V1> map(KeyValueMapper<? super K, ? super V, ? extends KeyValue<? extends K1, ? extends V1>> mapper) { Objects.requireNonNull(mapper, "mapper can't be null"); String name = topology.newName(MAP_NAME); topology.addProc...
@Test(expected = NullPointerException.class) public void shouldNotAllowNullMapperOnMapValues() throws Exception { testStream.mapValues(null); }
@Override public <V1> KStream<K, V1> mapValues(ValueMapper<? super V, ? extends V1> mapper) { Objects.requireNonNull(mapper, "mapper can't be null"); String name = topology.newName(MAPVALUES_NAME); topology.addProcessor(name, new KStreamMapValues<>(mapper), this.name); return new KStreamImpl<>(topology, name, sourceNod...
KStreamImpl extends AbstractStream<K> implements KStream<K, V> { @Override public <V1> KStream<K, V1> mapValues(ValueMapper<? super V, ? extends V1> mapper) { Objects.requireNonNull(mapper, "mapper can't be null"); String name = topology.newName(MAPVALUES_NAME); topology.addProcessor(name, new KStreamMapValues<>(mapper...
KStreamImpl extends AbstractStream<K> implements KStream<K, V> { @Override public <V1> KStream<K, V1> mapValues(ValueMapper<? super V, ? extends V1> mapper) { Objects.requireNonNull(mapper, "mapper can't be null"); String name = topology.newName(MAPVALUES_NAME); topology.addProcessor(name, new KStreamMapValues<>(mapper...
KStreamImpl extends AbstractStream<K> implements KStream<K, V> { @Override public <V1> KStream<K, V1> mapValues(ValueMapper<? super V, ? extends V1> mapper) { Objects.requireNonNull(mapper, "mapper can't be null"); String name = topology.newName(MAPVALUES_NAME); topology.addProcessor(name, new KStreamMapValues<>(mapper...
KStreamImpl extends AbstractStream<K> implements KStream<K, V> { @Override public <V1> KStream<K, V1> mapValues(ValueMapper<? super V, ? extends V1> mapper) { Objects.requireNonNull(mapper, "mapper can't be null"); String name = topology.newName(MAPVALUES_NAME); topology.addProcessor(name, new KStreamMapValues<>(mapper...
@Test(expected = NullPointerException.class) public void shouldNotAllowNullFilePathOnWriteAsText() throws Exception { testStream.writeAsText(null); }
@Override public void writeAsText(String filePath) { writeAsText(filePath, null, null, null); }
KStreamImpl extends AbstractStream<K> implements KStream<K, V> { @Override public void writeAsText(String filePath) { writeAsText(filePath, null, null, null); } }
KStreamImpl extends AbstractStream<K> implements KStream<K, V> { @Override public void writeAsText(String filePath) { writeAsText(filePath, null, null, null); } KStreamImpl(KStreamBuilder topology, String name, Set<String> sourceNodes, boolean repartitionRequired); }
KStreamImpl extends AbstractStream<K> implements KStream<K, V> { @Override public void writeAsText(String filePath) { writeAsText(filePath, null, null, null); } KStreamImpl(KStreamBuilder topology, String name, Set<String> sourceNodes, boolean repartitionRequired); @Override KStream<K, V> filter(...
KStreamImpl extends AbstractStream<K> implements KStream<K, V> { @Override public void writeAsText(String filePath) { writeAsText(filePath, null, null, null); } KStreamImpl(KStreamBuilder topology, String name, Set<String> sourceNodes, boolean repartitionRequired); @Override KStream<K, V> filter(...
@Test(expected = ConfigException.class) public void testConfigEmpty() { final Cast<SourceRecord> xform = new Cast.Key<>(); xform.configure(Collections.singletonMap(Cast.SPEC_CONFIG, "")); }
@Override public void configure(Map<String, ?> props) { final SimpleConfig config = new SimpleConfig(CONFIG_DEF, props); casts = parseFieldTypes(config.getList(SPEC_CONFIG)); wholeValueCastType = casts.get(WHOLE_VALUE_CAST); schemaUpdateCache = new SynchronizedCache<>(new LRUCache<Schema, Schema>(16)); }
Cast implements Transformation<R> { @Override public void configure(Map<String, ?> props) { final SimpleConfig config = new SimpleConfig(CONFIG_DEF, props); casts = parseFieldTypes(config.getList(SPEC_CONFIG)); wholeValueCastType = casts.get(WHOLE_VALUE_CAST); schemaUpdateCache = new SynchronizedCache<>(new LRUCache<Sc...
Cast implements Transformation<R> { @Override public void configure(Map<String, ?> props) { final SimpleConfig config = new SimpleConfig(CONFIG_DEF, props); casts = parseFieldTypes(config.getList(SPEC_CONFIG)); wholeValueCastType = casts.get(WHOLE_VALUE_CAST); schemaUpdateCache = new SynchronizedCache<>(new LRUCache<Sc...
Cast implements Transformation<R> { @Override public void configure(Map<String, ?> props) { final SimpleConfig config = new SimpleConfig(CONFIG_DEF, props); casts = parseFieldTypes(config.getList(SPEC_CONFIG)); wholeValueCastType = casts.get(WHOLE_VALUE_CAST); schemaUpdateCache = new SynchronizedCache<>(new LRUCache<Sc...
Cast implements Transformation<R> { @Override public void configure(Map<String, ?> props) { final SimpleConfig config = new SimpleConfig(CONFIG_DEF, props); casts = parseFieldTypes(config.getList(SPEC_CONFIG)); wholeValueCastType = casts.get(WHOLE_VALUE_CAST); schemaUpdateCache = new SynchronizedCache<>(new LRUCache<Sc...
@Test(expected = TopologyBuilderException.class) public void shouldNotAllowEmptyFilePathOnWriteAsText() throws Exception { testStream.writeAsText("\t \t"); }
@Override public void writeAsText(String filePath) { writeAsText(filePath, null, null, null); }
KStreamImpl extends AbstractStream<K> implements KStream<K, V> { @Override public void writeAsText(String filePath) { writeAsText(filePath, null, null, null); } }
KStreamImpl extends AbstractStream<K> implements KStream<K, V> { @Override public void writeAsText(String filePath) { writeAsText(filePath, null, null, null); } KStreamImpl(KStreamBuilder topology, String name, Set<String> sourceNodes, boolean repartitionRequired); }
KStreamImpl extends AbstractStream<K> implements KStream<K, V> { @Override public void writeAsText(String filePath) { writeAsText(filePath, null, null, null); } KStreamImpl(KStreamBuilder topology, String name, Set<String> sourceNodes, boolean repartitionRequired); @Override KStream<K, V> filter(...
KStreamImpl extends AbstractStream<K> implements KStream<K, V> { @Override public void writeAsText(String filePath) { writeAsText(filePath, null, null, null); } KStreamImpl(KStreamBuilder topology, String name, Set<String> sourceNodes, boolean repartitionRequired); @Override KStream<K, V> filter(...
@Test(expected = NullPointerException.class) public void shouldNotAllowNullMapperOnFlatMap() throws Exception { testStream.flatMap(null); }
@Override public <K1, V1> KStream<K1, V1> flatMap(KeyValueMapper<? super K, ? super V, ? extends Iterable<? extends KeyValue<? extends K1, ? extends V1>>> mapper) { Objects.requireNonNull(mapper, "mapper can't be null"); String name = topology.newName(FLATMAP_NAME); topology.addProcessor(name, new KStreamFlatMap<>(mapp...
KStreamImpl extends AbstractStream<K> implements KStream<K, V> { @Override public <K1, V1> KStream<K1, V1> flatMap(KeyValueMapper<? super K, ? super V, ? extends Iterable<? extends KeyValue<? extends K1, ? extends V1>>> mapper) { Objects.requireNonNull(mapper, "mapper can't be null"); String name = topology.newName(FLA...
KStreamImpl extends AbstractStream<K> implements KStream<K, V> { @Override public <K1, V1> KStream<K1, V1> flatMap(KeyValueMapper<? super K, ? super V, ? extends Iterable<? extends KeyValue<? extends K1, ? extends V1>>> mapper) { Objects.requireNonNull(mapper, "mapper can't be null"); String name = topology.newName(FLA...
KStreamImpl extends AbstractStream<K> implements KStream<K, V> { @Override public <K1, V1> KStream<K1, V1> flatMap(KeyValueMapper<? super K, ? super V, ? extends Iterable<? extends KeyValue<? extends K1, ? extends V1>>> mapper) { Objects.requireNonNull(mapper, "mapper can't be null"); String name = topology.newName(FLA...
KStreamImpl extends AbstractStream<K> implements KStream<K, V> { @Override public <K1, V1> KStream<K1, V1> flatMap(KeyValueMapper<? super K, ? super V, ? extends Iterable<? extends KeyValue<? extends K1, ? extends V1>>> mapper) { Objects.requireNonNull(mapper, "mapper can't be null"); String name = topology.newName(FLA...
@Test(expected = NullPointerException.class) public void shouldNotAllowNullMapperOnFlatMapValues() throws Exception { testStream.flatMapValues(null); }
@Override public <V1> KStream<K, V1> flatMapValues(ValueMapper<? super V, ? extends Iterable<? extends V1>> mapper) { Objects.requireNonNull(mapper, "mapper can't be null"); String name = topology.newName(FLATMAPVALUES_NAME); topology.addProcessor(name, new KStreamFlatMapValues<>(mapper), this.name); return new KStream...
KStreamImpl extends AbstractStream<K> implements KStream<K, V> { @Override public <V1> KStream<K, V1> flatMapValues(ValueMapper<? super V, ? extends Iterable<? extends V1>> mapper) { Objects.requireNonNull(mapper, "mapper can't be null"); String name = topology.newName(FLATMAPVALUES_NAME); topology.addProcessor(name, n...
KStreamImpl extends AbstractStream<K> implements KStream<K, V> { @Override public <V1> KStream<K, V1> flatMapValues(ValueMapper<? super V, ? extends Iterable<? extends V1>> mapper) { Objects.requireNonNull(mapper, "mapper can't be null"); String name = topology.newName(FLATMAPVALUES_NAME); topology.addProcessor(name, n...
KStreamImpl extends AbstractStream<K> implements KStream<K, V> { @Override public <V1> KStream<K, V1> flatMapValues(ValueMapper<? super V, ? extends Iterable<? extends V1>> mapper) { Objects.requireNonNull(mapper, "mapper can't be null"); String name = topology.newName(FLATMAPVALUES_NAME); topology.addProcessor(name, n...
KStreamImpl extends AbstractStream<K> implements KStream<K, V> { @Override public <V1> KStream<K, V1> flatMapValues(ValueMapper<? super V, ? extends Iterable<? extends V1>> mapper) { Objects.requireNonNull(mapper, "mapper can't be null"); String name = topology.newName(FLATMAPVALUES_NAME); topology.addProcessor(name, n...
@Test(expected = IllegalArgumentException.class) public void shouldHaveAtLeastOnPredicateWhenBranching() throws Exception { testStream.branch(); }
@Override @SuppressWarnings("unchecked") public KStream<K, V>[] branch(Predicate<? super K, ? super V>... predicates) { if (predicates.length == 0) { throw new IllegalArgumentException("you must provide at least one predicate"); } for (Predicate<? super K, ? super V> predicate : predicates) { Objects.requireNonNull(pre...
KStreamImpl extends AbstractStream<K> implements KStream<K, V> { @Override @SuppressWarnings("unchecked") public KStream<K, V>[] branch(Predicate<? super K, ? super V>... predicates) { if (predicates.length == 0) { throw new IllegalArgumentException("you must provide at least one predicate"); } for (Predicate<? super K...
KStreamImpl extends AbstractStream<K> implements KStream<K, V> { @Override @SuppressWarnings("unchecked") public KStream<K, V>[] branch(Predicate<? super K, ? super V>... predicates) { if (predicates.length == 0) { throw new IllegalArgumentException("you must provide at least one predicate"); } for (Predicate<? super K...
KStreamImpl extends AbstractStream<K> implements KStream<K, V> { @Override @SuppressWarnings("unchecked") public KStream<K, V>[] branch(Predicate<? super K, ? super V>... predicates) { if (predicates.length == 0) { throw new IllegalArgumentException("you must provide at least one predicate"); } for (Predicate<? super K...
KStreamImpl extends AbstractStream<K> implements KStream<K, V> { @Override @SuppressWarnings("unchecked") public KStream<K, V>[] branch(Predicate<? super K, ? super V>... predicates) { if (predicates.length == 0) { throw new IllegalArgumentException("you must provide at least one predicate"); } for (Predicate<? super K...
@Test(expected = NullPointerException.class) public void shouldCantHaveNullPredicate() throws Exception { testStream.branch((Predicate) null); }
@Override @SuppressWarnings("unchecked") public KStream<K, V>[] branch(Predicate<? super K, ? super V>... predicates) { if (predicates.length == 0) { throw new IllegalArgumentException("you must provide at least one predicate"); } for (Predicate<? super K, ? super V> predicate : predicates) { Objects.requireNonNull(pre...
KStreamImpl extends AbstractStream<K> implements KStream<K, V> { @Override @SuppressWarnings("unchecked") public KStream<K, V>[] branch(Predicate<? super K, ? super V>... predicates) { if (predicates.length == 0) { throw new IllegalArgumentException("you must provide at least one predicate"); } for (Predicate<? super K...
KStreamImpl extends AbstractStream<K> implements KStream<K, V> { @Override @SuppressWarnings("unchecked") public KStream<K, V>[] branch(Predicate<? super K, ? super V>... predicates) { if (predicates.length == 0) { throw new IllegalArgumentException("you must provide at least one predicate"); } for (Predicate<? super K...
KStreamImpl extends AbstractStream<K> implements KStream<K, V> { @Override @SuppressWarnings("unchecked") public KStream<K, V>[] branch(Predicate<? super K, ? super V>... predicates) { if (predicates.length == 0) { throw new IllegalArgumentException("you must provide at least one predicate"); } for (Predicate<? super K...
KStreamImpl extends AbstractStream<K> implements KStream<K, V> { @Override @SuppressWarnings("unchecked") public KStream<K, V>[] branch(Predicate<? super K, ? super V>... predicates) { if (predicates.length == 0) { throw new IllegalArgumentException("you must provide at least one predicate"); } for (Predicate<? super K...
@Test(expected = NullPointerException.class) public void shouldNotAllowNullTopicOnThrough() throws Exception { testStream.through(null); }
@Override public KStream<K, V> through(Serde<K> keySerde, Serde<V> valSerde, StreamPartitioner<? super K, ? super V> partitioner, String topic) { to(keySerde, valSerde, partitioner, topic); return topology.stream(keySerde, valSerde, topic); }
KStreamImpl extends AbstractStream<K> implements KStream<K, V> { @Override public KStream<K, V> through(Serde<K> keySerde, Serde<V> valSerde, StreamPartitioner<? super K, ? super V> partitioner, String topic) { to(keySerde, valSerde, partitioner, topic); return topology.stream(keySerde, valSerde, topic); } }
KStreamImpl extends AbstractStream<K> implements KStream<K, V> { @Override public KStream<K, V> through(Serde<K> keySerde, Serde<V> valSerde, StreamPartitioner<? super K, ? super V> partitioner, String topic) { to(keySerde, valSerde, partitioner, topic); return topology.stream(keySerde, valSerde, topic); } KStreamImpl(...
KStreamImpl extends AbstractStream<K> implements KStream<K, V> { @Override public KStream<K, V> through(Serde<K> keySerde, Serde<V> valSerde, StreamPartitioner<? super K, ? super V> partitioner, String topic) { to(keySerde, valSerde, partitioner, topic); return topology.stream(keySerde, valSerde, topic); } KStreamImpl(...
KStreamImpl extends AbstractStream<K> implements KStream<K, V> { @Override public KStream<K, V> through(Serde<K> keySerde, Serde<V> valSerde, StreamPartitioner<? super K, ? super V> partitioner, String topic) { to(keySerde, valSerde, partitioner, topic); return topology.stream(keySerde, valSerde, topic); } KStreamImpl(...
@Test(expected = NullPointerException.class) public void shouldNotAllowNullTopicOnTo() throws Exception { testStream.to(null); }
@Override public void to(String topic) { to(null, null, null, topic); }
KStreamImpl extends AbstractStream<K> implements KStream<K, V> { @Override public void to(String topic) { to(null, null, null, topic); } }
KStreamImpl extends AbstractStream<K> implements KStream<K, V> { @Override public void to(String topic) { to(null, null, null, topic); } KStreamImpl(KStreamBuilder topology, String name, Set<String> sourceNodes, boolean repartitionRequired); }
KStreamImpl extends AbstractStream<K> implements KStream<K, V> { @Override public void to(String topic) { to(null, null, null, topic); } KStreamImpl(KStreamBuilder topology, String name, Set<String> sourceNodes, boolean repartitionRequired); @Override KStream<K, V> filter(Predicate<? super K, ? s...
KStreamImpl extends AbstractStream<K> implements KStream<K, V> { @Override public void to(String topic) { to(null, null, null, topic); } KStreamImpl(KStreamBuilder topology, String name, Set<String> sourceNodes, boolean repartitionRequired); @Override KStream<K, V> filter(Predicate<? super K, ? s...
@Test(expected = NullPointerException.class) public void shouldNotAllowNullTransformSupplierOnTransform() throws Exception { testStream.transform(null); }
@Override public <K1, V1> KStream<K1, V1> transform(TransformerSupplier<? super K, ? super V, KeyValue<K1, V1>> transformerSupplier, String... stateStoreNames) { Objects.requireNonNull(transformerSupplier, "transformerSupplier can't be null"); String name = topology.newName(TRANSFORM_NAME); topology.addProcessor(name, ...
KStreamImpl extends AbstractStream<K> implements KStream<K, V> { @Override public <K1, V1> KStream<K1, V1> transform(TransformerSupplier<? super K, ? super V, KeyValue<K1, V1>> transformerSupplier, String... stateStoreNames) { Objects.requireNonNull(transformerSupplier, "transformerSupplier can't be null"); String name...
KStreamImpl extends AbstractStream<K> implements KStream<K, V> { @Override public <K1, V1> KStream<K1, V1> transform(TransformerSupplier<? super K, ? super V, KeyValue<K1, V1>> transformerSupplier, String... stateStoreNames) { Objects.requireNonNull(transformerSupplier, "transformerSupplier can't be null"); String name...
KStreamImpl extends AbstractStream<K> implements KStream<K, V> { @Override public <K1, V1> KStream<K1, V1> transform(TransformerSupplier<? super K, ? super V, KeyValue<K1, V1>> transformerSupplier, String... stateStoreNames) { Objects.requireNonNull(transformerSupplier, "transformerSupplier can't be null"); String name...
KStreamImpl extends AbstractStream<K> implements KStream<K, V> { @Override public <K1, V1> KStream<K1, V1> transform(TransformerSupplier<? super K, ? super V, KeyValue<K1, V1>> transformerSupplier, String... stateStoreNames) { Objects.requireNonNull(transformerSupplier, "transformerSupplier can't be null"); String name...
@Test(expected = NullPointerException.class) public void shouldNotAllowNullTransformSupplierOnTransformValues() throws Exception { testStream.transformValues(null); }
@Override public <V1> KStream<K, V1> transformValues(ValueTransformerSupplier<? super V, ? extends V1> valueTransformerSupplier, String... stateStoreNames) { Objects.requireNonNull(valueTransformerSupplier, "valueTransformSupplier can't be null"); String name = topology.newName(TRANSFORMVALUES_NAME); topology.addProces...
KStreamImpl extends AbstractStream<K> implements KStream<K, V> { @Override public <V1> KStream<K, V1> transformValues(ValueTransformerSupplier<? super V, ? extends V1> valueTransformerSupplier, String... stateStoreNames) { Objects.requireNonNull(valueTransformerSupplier, "valueTransformSupplier can't be null"); String ...
KStreamImpl extends AbstractStream<K> implements KStream<K, V> { @Override public <V1> KStream<K, V1> transformValues(ValueTransformerSupplier<? super V, ? extends V1> valueTransformerSupplier, String... stateStoreNames) { Objects.requireNonNull(valueTransformerSupplier, "valueTransformSupplier can't be null"); String ...
KStreamImpl extends AbstractStream<K> implements KStream<K, V> { @Override public <V1> KStream<K, V1> transformValues(ValueTransformerSupplier<? super V, ? extends V1> valueTransformerSupplier, String... stateStoreNames) { Objects.requireNonNull(valueTransformerSupplier, "valueTransformSupplier can't be null"); String ...
KStreamImpl extends AbstractStream<K> implements KStream<K, V> { @Override public <V1> KStream<K, V1> transformValues(ValueTransformerSupplier<? super V, ? extends V1> valueTransformerSupplier, String... stateStoreNames) { Objects.requireNonNull(valueTransformerSupplier, "valueTransformSupplier can't be null"); String ...
@Test(expected = NullPointerException.class) public void shouldNotAllowNullProcessSupplier() throws Exception { testStream.process(null); }
@Override public void process(final ProcessorSupplier<? super K, ? super V> processorSupplier, String... stateStoreNames) { String name = topology.newName(PROCESSOR_NAME); topology.addProcessor(name, processorSupplier, this.name); topology.connectProcessorAndStateStores(name, stateStoreNames); }
KStreamImpl extends AbstractStream<K> implements KStream<K, V> { @Override public void process(final ProcessorSupplier<? super K, ? super V> processorSupplier, String... stateStoreNames) { String name = topology.newName(PROCESSOR_NAME); topology.addProcessor(name, processorSupplier, this.name); topology.connectProcesso...
KStreamImpl extends AbstractStream<K> implements KStream<K, V> { @Override public void process(final ProcessorSupplier<? super K, ? super V> processorSupplier, String... stateStoreNames) { String name = topology.newName(PROCESSOR_NAME); topology.addProcessor(name, processorSupplier, this.name); topology.connectProcesso...
KStreamImpl extends AbstractStream<K> implements KStream<K, V> { @Override public void process(final ProcessorSupplier<? super K, ? super V> processorSupplier, String... stateStoreNames) { String name = topology.newName(PROCESSOR_NAME); topology.addProcessor(name, processorSupplier, this.name); topology.connectProcesso...
KStreamImpl extends AbstractStream<K> implements KStream<K, V> { @Override public void process(final ProcessorSupplier<? super K, ? super V> processorSupplier, String... stateStoreNames) { String name = topology.newName(PROCESSOR_NAME); topology.addProcessor(name, processorSupplier, this.name); topology.connectProcesso...
@Test(expected = ConfigException.class) public void testConfigInvalidSchemaType() { final Cast<SourceRecord> xform = new Cast.Key<>(); xform.configure(Collections.singletonMap(Cast.SPEC_CONFIG, "foo:faketype")); }
@Override public void configure(Map<String, ?> props) { final SimpleConfig config = new SimpleConfig(CONFIG_DEF, props); casts = parseFieldTypes(config.getList(SPEC_CONFIG)); wholeValueCastType = casts.get(WHOLE_VALUE_CAST); schemaUpdateCache = new SynchronizedCache<>(new LRUCache<Schema, Schema>(16)); }
Cast implements Transformation<R> { @Override public void configure(Map<String, ?> props) { final SimpleConfig config = new SimpleConfig(CONFIG_DEF, props); casts = parseFieldTypes(config.getList(SPEC_CONFIG)); wholeValueCastType = casts.get(WHOLE_VALUE_CAST); schemaUpdateCache = new SynchronizedCache<>(new LRUCache<Sc...
Cast implements Transformation<R> { @Override public void configure(Map<String, ?> props) { final SimpleConfig config = new SimpleConfig(CONFIG_DEF, props); casts = parseFieldTypes(config.getList(SPEC_CONFIG)); wholeValueCastType = casts.get(WHOLE_VALUE_CAST); schemaUpdateCache = new SynchronizedCache<>(new LRUCache<Sc...
Cast implements Transformation<R> { @Override public void configure(Map<String, ?> props) { final SimpleConfig config = new SimpleConfig(CONFIG_DEF, props); casts = parseFieldTypes(config.getList(SPEC_CONFIG)); wholeValueCastType = casts.get(WHOLE_VALUE_CAST); schemaUpdateCache = new SynchronizedCache<>(new LRUCache<Sc...
Cast implements Transformation<R> { @Override public void configure(Map<String, ?> props) { final SimpleConfig config = new SimpleConfig(CONFIG_DEF, props); casts = parseFieldTypes(config.getList(SPEC_CONFIG)); wholeValueCastType = casts.get(WHOLE_VALUE_CAST); schemaUpdateCache = new SynchronizedCache<>(new LRUCache<Sc...
@Test(expected = NullPointerException.class) public void shouldNotAllowNullOtherStreamOnJoin() throws Exception { testStream.join(null, MockValueJoiner.TOSTRING_JOINER, JoinWindows.of(10)); }
@Override public <V1, R> KStream<K, R> join( final KStream<K, V1> other, final ValueJoiner<? super V, ? super V1, ? extends R> joiner, final JoinWindows windows, final Serde<K> keySerde, final Serde<V> thisValueSerde, final Serde<V1> otherValueSerde) { return doJoin(other, joiner, windows, keySerde, thisValueSerde, oth...
KStreamImpl extends AbstractStream<K> implements KStream<K, V> { @Override public <V1, R> KStream<K, R> join( final KStream<K, V1> other, final ValueJoiner<? super V, ? super V1, ? extends R> joiner, final JoinWindows windows, final Serde<K> keySerde, final Serde<V> thisValueSerde, final Serde<V1> otherValueSerde) { re...
KStreamImpl extends AbstractStream<K> implements KStream<K, V> { @Override public <V1, R> KStream<K, R> join( final KStream<K, V1> other, final ValueJoiner<? super V, ? super V1, ? extends R> joiner, final JoinWindows windows, final Serde<K> keySerde, final Serde<V> thisValueSerde, final Serde<V1> otherValueSerde) { re...
KStreamImpl extends AbstractStream<K> implements KStream<K, V> { @Override public <V1, R> KStream<K, R> join( final KStream<K, V1> other, final ValueJoiner<? super V, ? super V1, ? extends R> joiner, final JoinWindows windows, final Serde<K> keySerde, final Serde<V> thisValueSerde, final Serde<V1> otherValueSerde) { re...
KStreamImpl extends AbstractStream<K> implements KStream<K, V> { @Override public <V1, R> KStream<K, R> join( final KStream<K, V1> other, final ValueJoiner<? super V, ? super V1, ? extends R> joiner, final JoinWindows windows, final Serde<K> keySerde, final Serde<V> thisValueSerde, final Serde<V1> otherValueSerde) { re...
@Test(expected = NullPointerException.class) public void shouldNotAllowNullValueJoinerOnJoin() throws Exception { testStream.join(testStream, null, JoinWindows.of(10)); }
@Override public <V1, R> KStream<K, R> join( final KStream<K, V1> other, final ValueJoiner<? super V, ? super V1, ? extends R> joiner, final JoinWindows windows, final Serde<K> keySerde, final Serde<V> thisValueSerde, final Serde<V1> otherValueSerde) { return doJoin(other, joiner, windows, keySerde, thisValueSerde, oth...
KStreamImpl extends AbstractStream<K> implements KStream<K, V> { @Override public <V1, R> KStream<K, R> join( final KStream<K, V1> other, final ValueJoiner<? super V, ? super V1, ? extends R> joiner, final JoinWindows windows, final Serde<K> keySerde, final Serde<V> thisValueSerde, final Serde<V1> otherValueSerde) { re...
KStreamImpl extends AbstractStream<K> implements KStream<K, V> { @Override public <V1, R> KStream<K, R> join( final KStream<K, V1> other, final ValueJoiner<? super V, ? super V1, ? extends R> joiner, final JoinWindows windows, final Serde<K> keySerde, final Serde<V> thisValueSerde, final Serde<V1> otherValueSerde) { re...
KStreamImpl extends AbstractStream<K> implements KStream<K, V> { @Override public <V1, R> KStream<K, R> join( final KStream<K, V1> other, final ValueJoiner<? super V, ? super V1, ? extends R> joiner, final JoinWindows windows, final Serde<K> keySerde, final Serde<V> thisValueSerde, final Serde<V1> otherValueSerde) { re...
KStreamImpl extends AbstractStream<K> implements KStream<K, V> { @Override public <V1, R> KStream<K, R> join( final KStream<K, V1> other, final ValueJoiner<? super V, ? super V1, ? extends R> joiner, final JoinWindows windows, final Serde<K> keySerde, final Serde<V> thisValueSerde, final Serde<V1> otherValueSerde) { re...
@Test(expected = NullPointerException.class) public void shouldNotAllowNullJoinWindowsOnJoin() throws Exception { testStream.join(testStream, MockValueJoiner.TOSTRING_JOINER, null); }
@Override public <V1, R> KStream<K, R> join( final KStream<K, V1> other, final ValueJoiner<? super V, ? super V1, ? extends R> joiner, final JoinWindows windows, final Serde<K> keySerde, final Serde<V> thisValueSerde, final Serde<V1> otherValueSerde) { return doJoin(other, joiner, windows, keySerde, thisValueSerde, oth...
KStreamImpl extends AbstractStream<K> implements KStream<K, V> { @Override public <V1, R> KStream<K, R> join( final KStream<K, V1> other, final ValueJoiner<? super V, ? super V1, ? extends R> joiner, final JoinWindows windows, final Serde<K> keySerde, final Serde<V> thisValueSerde, final Serde<V1> otherValueSerde) { re...
KStreamImpl extends AbstractStream<K> implements KStream<K, V> { @Override public <V1, R> KStream<K, R> join( final KStream<K, V1> other, final ValueJoiner<? super V, ? super V1, ? extends R> joiner, final JoinWindows windows, final Serde<K> keySerde, final Serde<V> thisValueSerde, final Serde<V1> otherValueSerde) { re...
KStreamImpl extends AbstractStream<K> implements KStream<K, V> { @Override public <V1, R> KStream<K, R> join( final KStream<K, V1> other, final ValueJoiner<? super V, ? super V1, ? extends R> joiner, final JoinWindows windows, final Serde<K> keySerde, final Serde<V> thisValueSerde, final Serde<V1> otherValueSerde) { re...
KStreamImpl extends AbstractStream<K> implements KStream<K, V> { @Override public <V1, R> KStream<K, R> join( final KStream<K, V1> other, final ValueJoiner<? super V, ? super V1, ? extends R> joiner, final JoinWindows windows, final Serde<K> keySerde, final Serde<V> thisValueSerde, final Serde<V1> otherValueSerde) { re...
@Test(expected = NullPointerException.class) public void shouldNotAllowNullTableOnTableJoin() throws Exception { testStream.leftJoin((KTable) null, MockValueJoiner.TOSTRING_JOINER); }
@Override public <V1, R> KStream<K, R> leftJoin( final KStream<K, V1> other, final ValueJoiner<? super V, ? super V1, ? extends R> joiner, final JoinWindows windows, final Serde<K> keySerde, final Serde<V> thisValSerde, final Serde<V1> otherValueSerde) { return doJoin(other, joiner, windows, keySerde, thisValSerde, oth...
KStreamImpl extends AbstractStream<K> implements KStream<K, V> { @Override public <V1, R> KStream<K, R> leftJoin( final KStream<K, V1> other, final ValueJoiner<? super V, ? super V1, ? extends R> joiner, final JoinWindows windows, final Serde<K> keySerde, final Serde<V> thisValSerde, final Serde<V1> otherValueSerde) { ...
KStreamImpl extends AbstractStream<K> implements KStream<K, V> { @Override public <V1, R> KStream<K, R> leftJoin( final KStream<K, V1> other, final ValueJoiner<? super V, ? super V1, ? extends R> joiner, final JoinWindows windows, final Serde<K> keySerde, final Serde<V> thisValSerde, final Serde<V1> otherValueSerde) { ...
KStreamImpl extends AbstractStream<K> implements KStream<K, V> { @Override public <V1, R> KStream<K, R> leftJoin( final KStream<K, V1> other, final ValueJoiner<? super V, ? super V1, ? extends R> joiner, final JoinWindows windows, final Serde<K> keySerde, final Serde<V> thisValSerde, final Serde<V1> otherValueSerde) { ...
KStreamImpl extends AbstractStream<K> implements KStream<K, V> { @Override public <V1, R> KStream<K, R> leftJoin( final KStream<K, V1> other, final ValueJoiner<? super V, ? super V1, ? extends R> joiner, final JoinWindows windows, final Serde<K> keySerde, final Serde<V> thisValSerde, final Serde<V1> otherValueSerde) { ...
@Test(expected = NullPointerException.class) public void shouldNotAllowNullValueMapperOnTableJoin() throws Exception { testStream.leftJoin(builder.table(Serdes.String(), Serdes.String(), "topic", "store"), null); }
@Override public <V1, R> KStream<K, R> leftJoin( final KStream<K, V1> other, final ValueJoiner<? super V, ? super V1, ? extends R> joiner, final JoinWindows windows, final Serde<K> keySerde, final Serde<V> thisValSerde, final Serde<V1> otherValueSerde) { return doJoin(other, joiner, windows, keySerde, thisValSerde, oth...
KStreamImpl extends AbstractStream<K> implements KStream<K, V> { @Override public <V1, R> KStream<K, R> leftJoin( final KStream<K, V1> other, final ValueJoiner<? super V, ? super V1, ? extends R> joiner, final JoinWindows windows, final Serde<K> keySerde, final Serde<V> thisValSerde, final Serde<V1> otherValueSerde) { ...
KStreamImpl extends AbstractStream<K> implements KStream<K, V> { @Override public <V1, R> KStream<K, R> leftJoin( final KStream<K, V1> other, final ValueJoiner<? super V, ? super V1, ? extends R> joiner, final JoinWindows windows, final Serde<K> keySerde, final Serde<V> thisValSerde, final Serde<V1> otherValueSerde) { ...
KStreamImpl extends AbstractStream<K> implements KStream<K, V> { @Override public <V1, R> KStream<K, R> leftJoin( final KStream<K, V1> other, final ValueJoiner<? super V, ? super V1, ? extends R> joiner, final JoinWindows windows, final Serde<K> keySerde, final Serde<V> thisValSerde, final Serde<V1> otherValueSerde) { ...
KStreamImpl extends AbstractStream<K> implements KStream<K, V> { @Override public <V1, R> KStream<K, R> leftJoin( final KStream<K, V1> other, final ValueJoiner<? super V, ? super V1, ? extends R> joiner, final JoinWindows windows, final Serde<K> keySerde, final Serde<V> thisValSerde, final Serde<V1> otherValueSerde) { ...
@Test(expected = NullPointerException.class) public void shouldNotAllowNullSelectorOnGroupBy() throws Exception { testStream.groupBy(null); }
@Override public <K1> KGroupedStream<K1, V> groupBy(KeyValueMapper<? super K, ? super V, K1> selector) { return groupBy(selector, null, null); }
KStreamImpl extends AbstractStream<K> implements KStream<K, V> { @Override public <K1> KGroupedStream<K1, V> groupBy(KeyValueMapper<? super K, ? super V, K1> selector) { return groupBy(selector, null, null); } }
KStreamImpl extends AbstractStream<K> implements KStream<K, V> { @Override public <K1> KGroupedStream<K1, V> groupBy(KeyValueMapper<? super K, ? super V, K1> selector) { return groupBy(selector, null, null); } KStreamImpl(KStreamBuilder topology, String name, Set<String> sourceNodes, boolean repa...
KStreamImpl extends AbstractStream<K> implements KStream<K, V> { @Override public <K1> KGroupedStream<K1, V> groupBy(KeyValueMapper<? super K, ? super V, K1> selector) { return groupBy(selector, null, null); } KStreamImpl(KStreamBuilder topology, String name, Set<String> sourceNodes, boolean repa...
KStreamImpl extends AbstractStream<K> implements KStream<K, V> { @Override public <K1> KGroupedStream<K1, V> groupBy(KeyValueMapper<? super K, ? super V, K1> selector) { return groupBy(selector, null, null); } KStreamImpl(KStreamBuilder topology, String name, Set<String> sourceNodes, boolean repa...
@Test(expected = NullPointerException.class) public void shouldNotAllowNullActionOnForEach() throws Exception { testStream.foreach(null); }
@Override public void foreach(ForeachAction<? super K, ? super V> action) { Objects.requireNonNull(action, "action can't be null"); String name = topology.newName(FOREACH_NAME); topology.addProcessor(name, new KStreamPeek<>(action, false), this.name); }
KStreamImpl extends AbstractStream<K> implements KStream<K, V> { @Override public void foreach(ForeachAction<? super K, ? super V> action) { Objects.requireNonNull(action, "action can't be null"); String name = topology.newName(FOREACH_NAME); topology.addProcessor(name, new KStreamPeek<>(action, false), this.name); } }
KStreamImpl extends AbstractStream<K> implements KStream<K, V> { @Override public void foreach(ForeachAction<? super K, ? super V> action) { Objects.requireNonNull(action, "action can't be null"); String name = topology.newName(FOREACH_NAME); topology.addProcessor(name, new KStreamPeek<>(action, false), this.name); } K...
KStreamImpl extends AbstractStream<K> implements KStream<K, V> { @Override public void foreach(ForeachAction<? super K, ? super V> action) { Objects.requireNonNull(action, "action can't be null"); String name = topology.newName(FOREACH_NAME); topology.addProcessor(name, new KStreamPeek<>(action, false), this.name); } K...
KStreamImpl extends AbstractStream<K> implements KStream<K, V> { @Override public void foreach(ForeachAction<? super K, ? super V> action) { Objects.requireNonNull(action, "action can't be null"); String name = topology.newName(FOREACH_NAME); topology.addProcessor(name, new KStreamPeek<>(action, false), this.name); } K...