Example 46 with MISTEdge
use of edu.snu.mist.common.graph.MISTEdge in project mist by snuspl.
the class OperatorOutputEmitter method emitCheckpoint.
@Override
public void emitCheckpoint(final MistCheckpointEvent checkpoint) {
// Checkpoint is not changed, so we just forward it to the next operator chains.
for (final Map.Entry<ExecutionVertex, MISTEdge> nextQuery : nextOperators.entrySet()) {
final Direction direction = nextQuery.getValue().getDirection();
sendCheckpoint(checkpoint, direction, nextQuery.getKey());
}
}Example 47 with MISTEdge
use of edu.snu.mist.common.graph.MISTEdge in project mist by snuspl.
the class QueryManagerTest method testSubmitComplexQueryHelper.
@SuppressWarnings("unchecked")
private void testSubmitComplexQueryHelper(final Configuration conf) throws Exception {
final String queryId = "testQuery";
final List<String> inputs = Arrays.asList("mist is a cloud of tiny water droplets suspended in the atmosphere", "a mist rose out of the river", "the peaks were shrouded in mist");
// Expected results
final List<Map<String, Integer>> intermediateResult = getIntermediateResult(inputs);
final List<String> expectedSink1Output = intermediateResult.stream().map(input -> input.toString()).collect(Collectors.toList());
final List<Integer> expectedSink2Output = intermediateResult.stream().map(totalCountMapFunc).collect(Collectors.toList());
// Number of expected outputs
final CountDownLatch countDownAllOutputs = new CountDownLatch(intermediateResult.size() * 2);
// Create the execution DAG of the query
final ExecutionDag executionDag = new ExecutionDag(new AdjacentListDAG<>());
// Create source
final TestDataGenerator dataGenerator = new TestDataGenerator(inputs);
final EventGenerator eventGenerator = new PunctuatedEventGenerator(null, input -> false, null, 0, null, null);
final PhysicalSource src = new PhysicalSourceImpl("testSource", new HashMap<>(), dataGenerator, eventGenerator);
final Injector injector = Tang.Factory.getTang().newInjector(conf);
// Create sinks
final List<String> sink1Result = new LinkedList<>();
final List<Integer> sink2Result = new LinkedList<>();
final PhysicalSink sink1 = new PhysicalSinkImpl<>("sink1", null, new TestWithCountDownSink<String>(sink1Result, countDownAllOutputs));
final PhysicalSink sink2 = new PhysicalSinkImpl<>("sink2", null, new TestWithCountDownSink<Integer>(sink2Result, countDownAllOutputs));
// Fake operator chain dag of QueryManager
final AvroDag fakeAvroDag = new AvroDag();
fakeAvroDag.setQueryId(queryId);
// fakeAvroDag.setSuperGroupId("testGroup");
// Construct execution dag
constructExecutionDag(executionDag, src, sink1, sink2);
// Create mock DagGenerator. It returns the above execution dag
final ConfigDagGenerator configDagGenerator = mock(ConfigDagGenerator.class);
final DAG<ConfigVertex, MISTEdge> configDag = mock(DAG.class);
when(configDagGenerator.generate(fakeAvroDag)).thenReturn(configDag);
final DagGenerator dagGenerator = mock(DagGenerator.class);
// when(dagGenerator.generate(configDag, tuple.getValue().getJarFilePaths())).thenReturn(executionDag);
// Build QueryManager
final QueryManager queryManager = queryManagerBuild(fakeAvroDag, configDagGenerator, dagGenerator, injector);
queryManager.create(fakeAvroDag);
// Wait until all of the outputs are generated
countDownAllOutputs.await();
// Check the outputs
Assert.assertEquals(expectedSink1Output, sink1Result);
Assert.assertEquals(expectedSink2Output, sink2Result);
src.close();
queryManager.close();
// Delete plan directory and plans
deletePlans(injector);
}
Also used :
DefaultNumEventProcessors(edu.snu.mist.core.task.groupaware.eventprocessor.parameters.DefaultNumEventProcessors)
Injector(org.apache.reef.tang.Injector)
java.util(java.util)
EventGenerator(edu.snu.mist.core.sources.EventGenerator)
Tuple2(edu.snu.mist.common.types.Tuple2)
MISTEdge(edu.snu.mist.common.graph.MISTEdge)
AvroDag(edu.snu.mist.formats.avro.AvroDag)
ReduceByKeyOperator(edu.snu.mist.core.operators.ReduceByKeyOperator)
PunctuatedEventGenerator(edu.snu.mist.core.sources.PunctuatedEventGenerator)
DAG(edu.snu.mist.common.graph.DAG)
Configuration(org.apache.reef.tang.Configuration)
MISTBiFunction(edu.snu.mist.common.functions.MISTBiFunction)
MapOperator(edu.snu.mist.core.operators.MapOperator)
TestWithCountDownSink(edu.snu.mist.core.task.utils.TestWithCountDownSink)
Tang(org.apache.reef.tang.Tang)
MISTFunction(edu.snu.mist.common.functions.MISTFunction)
MISTPredicate(edu.snu.mist.common.functions.MISTPredicate)
PlanStorePath(edu.snu.mist.core.parameters.PlanStorePath)
Mockito.when(org.mockito.Mockito.when)
Logger(java.util.logging.Logger)
QueryInfoStore(edu.snu.mist.core.task.stores.QueryInfoStore)
Collectors(java.util.stream.Collectors)
File(java.io.File)
FilterOperator(edu.snu.mist.core.operators.FilterOperator)
CountDownLatch(java.util.concurrent.CountDownLatch)
FlatMapOperator(edu.snu.mist.core.operators.FlatMapOperator)
Assert(junit.framework.Assert)
MistTaskConfigs(edu.snu.mist.core.driver.MistTaskConfigs)
Direction(edu.snu.mist.formats.avro.Direction)
JavaConfigurationBuilder(org.apache.reef.tang.JavaConfigurationBuilder)
TestDataGenerator(edu.snu.mist.core.task.utils.TestDataGenerator)
ClientToTaskPort(edu.snu.mist.core.parameters.ClientToTaskPort)
AdjacentListDAG(edu.snu.mist.common.graph.AdjacentListDAG)
Mockito.mock(org.mockito.Mockito.mock)
TestDataGenerator(edu.snu.mist.core.task.utils.TestDataGenerator)
AvroDag(edu.snu.mist.formats.avro.AvroDag)
Injector(org.apache.reef.tang.Injector)
MISTEdge(edu.snu.mist.common.graph.MISTEdge)
EventGenerator(edu.snu.mist.core.sources.EventGenerator)
PunctuatedEventGenerator(edu.snu.mist.core.sources.PunctuatedEventGenerator)
CountDownLatch(java.util.concurrent.CountDownLatch)
PunctuatedEventGenerator(edu.snu.mist.core.sources.PunctuatedEventGenerator)
Example 48 with MISTEdge
use of edu.snu.mist.common.graph.MISTEdge in project mist by snuspl.
the class ImmediateQueryMergingStarterTest method mergingSameSourceButDifferentOperatorQueriesOneGroupTest.
/**
* Case 4: Merging two dags that have same source but different operator chain.
* @throws InjectionException
*/
@Test
public void mergingSameSourceButDifferentOperatorQueriesOneGroupTest() throws InjectionException, IOException, ClassNotFoundException {
// Create a query 1:
// src1 -> oc1 -> sink1
final List<String> result1 = new LinkedList<>();
final Map<String, String> sourceConf = idAndConfGenerator.generateConf();
final Map<String, String> ocConf1 = idAndConfGenerator.generateConf();
final Map<String, String> sinkConf1 = idAndConfGenerator.generateConf();
final List<String> paths1 = mock(List.class);
final TestSource src1 = generateSource(sourceConf);
final PhysicalOperator physicalOp1 = generateFilterOperator(ocConf1, (s) -> true);
final PhysicalSink<String> sink1 = generateSink(sinkConf1, result1);
// Config vertices
final ConfigVertex srcVertex1 = new ConfigVertex(Long.toString(configVertexId.getAndIncrement()), ExecutionVertex.Type.SOURCE, sourceConf);
final ConfigVertex ocVertex1 = new ConfigVertex(Long.toString(configVertexId.getAndIncrement()), ExecutionVertex.Type.OPERATOR, ocConf1);
final ConfigVertex sinkVertex1 = new ConfigVertex(Long.toString(configVertexId.getAndIncrement()), ExecutionVertex.Type.SINK, sinkConf1);
// Create dag
final Tuple<DAG<ConfigVertex, MISTEdge>, ExecutionDag> dagTuple1 = generateSimpleDag(src1, physicalOp1, sink1, srcVertex1, ocVertex1, sinkVertex1);
// Create a query 2:
// src2 -> oc2 -> sink2
// The configuration of src2 and operatorChain2 is same as that of src1 and operatorChain2.
final List<String> result2 = new LinkedList<>();
final Map<String, String> ocConf2 = idAndConfGenerator.generateConf();
final Map<String, String> sinkConf2 = idAndConfGenerator.generateConf();
final TestSource src2 = generateSource(sourceConf);
final PhysicalOperator physicalOp2 = generateFilterOperator(ocConf2, (s) -> true);
final PhysicalSink<String> sink2 = generateSink(sinkConf2, result2);
final List<String> paths2 = mock(List.class);
// Config vertices
final ConfigVertex srcVertex2 = new ConfigVertex(Long.toString(configVertexId.getAndIncrement()), ExecutionVertex.Type.SOURCE, sourceConf);
final ConfigVertex ocVertex2 = new ConfigVertex(Long.toString(configVertexId.getAndIncrement()), ExecutionVertex.Type.OPERATOR, ocConf2);
final ConfigVertex sinkVertex2 = new ConfigVertex(Long.toString(configVertexId.getAndIncrement()), ExecutionVertex.Type.SINK, sinkConf2);
// Create dag
final Tuple<DAG<ConfigVertex, MISTEdge>, ExecutionDag> dagTuple2 = generateSimpleDag(src2, physicalOp2, sink2, srcVertex2, ocVertex2, sinkVertex2);
// Execute two queries
// The query 1 and 2 should be merged and the following dag should be created:
// src1 -> oc1 -> sink1
// -> oc2 -> sink2
final String query1Id = "q1";
final String query2Id = "q2";
final Query query1 = mock(Query.class);
final Query query2 = mock(Query.class);
queryStarter.start(query1Id, query1, dagTuple1.getKey(), paths1);
queryStarter.start(query2Id, query2, dagTuple2.getKey(), paths2);
// Generate events for the merged query and check if the dag is executed correctly
final String data1 = "Hello";
src1.send(data1);
Assert.assertEquals(1, src1.getSourceOutputEmitter().numberOfEvents());
Assert.assertEquals(null, src2.getSourceOutputEmitter());
Assert.assertEquals(1, src1.getSourceOutputEmitter().processAllEvent());
Assert.assertEquals(Arrays.asList(data1), result1);
Assert.assertEquals(Arrays.asList(data1), result2);
final String data2 = "World";
src1.send(data2);
Assert.assertEquals(1, src1.getSourceOutputEmitter().numberOfEvents());
Assert.assertEquals(1, src1.getSourceOutputEmitter().processAllEvent());
Assert.assertEquals(Arrays.asList(data1, data2), result1);
Assert.assertEquals(Arrays.asList(data1, data2), result2);
// Src2 and 1 are the same, so the output emitter of src2 should be null
try {
src2.send(data1);
Assert.fail("OutputEmitter should be null");
} catch (final NullPointerException e) {
// do nothing
}
// Check execution dags
final Collection<ExecutionDag> expectedDags = new HashSet<>();
final DAG<ExecutionVertex, MISTEdge> mergedDag = dagTuple1.getValue().getDag();
mergedDag.addVertex(physicalOp2);
mergedDag.addVertex(sink2);
mergedDag.addEdge(src1, physicalOp2, new MISTEdge(Direction.LEFT));
mergedDag.addEdge(physicalOp2, sink2, new MISTEdge(Direction.LEFT));
expectedDags.add(srcAndDagMap.get(sourceConf));
Assert.assertEquals(expectedDags, executionDags.values());
// Check queryIdConfigDagMap
Assert.assertEquals(dagTuple1.getKey(), queryIdConfigDagMap.get(query1Id));
Assert.assertEquals(dagTuple2.getKey(), queryIdConfigDagMap.get(query2Id));
// Check srcAndDagMap
Assert.assertTrue(GraphUtils.compareTwoDag(mergedDag, srcAndDagMap.get(sourceConf).getDag()));
// Check executionVertexDagMap
Assert.assertTrue(GraphUtils.compareTwoDag(mergedDag, executionVertexDagMap.get(src1).getDag()));
Assert.assertTrue(GraphUtils.compareTwoDag(mergedDag, executionVertexDagMap.get(physicalOp1).getDag()));
Assert.assertTrue(GraphUtils.compareTwoDag(mergedDag, executionVertexDagMap.get(sink1).getDag()));
// They are merged, so src2, oc2 and sink2 should be included in dag1
Assert.assertEquals(null, executionVertexDagMap.get(src2));
Assert.assertTrue(GraphUtils.compareTwoDag(mergedDag, executionVertexDagMap.get(physicalOp2).getDag()));
Assert.assertTrue(GraphUtils.compareTwoDag(mergedDag, executionVertexDagMap.get(sink2).getDag()));
// Check configExecutionVertexMap
Assert.assertEquals(src1, configExecutionVertexMap.get(srcVertex1));
Assert.assertEquals(physicalOp1, configExecutionVertexMap.get(ocVertex1));
Assert.assertEquals(sink1, configExecutionVertexMap.get(sinkVertex1));
Assert.assertEquals(src1, configExecutionVertexMap.get(srcVertex2));
Assert.assertEquals(physicalOp2, configExecutionVertexMap.get(ocVertex2));
Assert.assertEquals(sink2, configExecutionVertexMap.get(sinkVertex2));
// Check reference count
Assert.assertEquals(2, (int) executionVertexCountMap.get(src1));
Assert.assertEquals(1, (int) executionVertexCountMap.get(physicalOp1));
Assert.assertEquals(1, (int) executionVertexCountMap.get(sink1));
Assert.assertEquals(null, executionVertexCountMap.get(src2));
Assert.assertEquals(1, (int) executionVertexCountMap.get(physicalOp2));
Assert.assertEquals(1, (int) executionVertexCountMap.get(sink2));
}Example 49 with MISTEdge
use of edu.snu.mist.common.graph.MISTEdge in project mist by snuspl.
the class ImmediateQueryMergingStarterTest method generateSimpleDag.
/**
* Generate a simple query that has the following structure: src -> operator -> sink.
* @param source source
* @param physicalOperator operator
* @param sink sink
* @return dag
*/
private Tuple<DAG<ConfigVertex, MISTEdge>, ExecutionDag> generateSimpleDag(final TestSource source, final PhysicalOperator physicalOperator, final PhysicalSink<String> sink, final ConfigVertex srcVertex, final ConfigVertex ocVertex, final ConfigVertex sinkVertex) throws IOException, ClassNotFoundException {
// Create DAG
final DAG<ConfigVertex, MISTEdge> dag = new AdjacentListConcurrentMapDAG<>();
dag.addVertex(srcVertex);
dag.addVertex(ocVertex);
dag.addVertex(sinkVertex);
dag.addEdge(srcVertex, ocVertex, new MISTEdge(Direction.LEFT));
dag.addEdge(ocVertex, sinkVertex, new MISTEdge(Direction.LEFT));
final DAG<ExecutionVertex, MISTEdge> exDag = new AdjacentListConcurrentMapDAG<>();
exDag.addVertex(source);
exDag.addVertex(physicalOperator);
exDag.addVertex(sink);
exDag.addEdge(source, physicalOperator, new MISTEdge(Direction.LEFT));
exDag.addEdge(physicalOperator, sink, new MISTEdge(Direction.LEFT));
when(executionVertexGenerator.generate(eq(srcVertex), any(URL[].class), any(ClassLoader.class))).thenReturn(source);
when(executionVertexGenerator.generate(eq(ocVertex), any(URL[].class), any(ClassLoader.class))).thenReturn(physicalOperator);
when(executionVertexGenerator.generate(eq(sinkVertex), any(URL[].class), any(ClassLoader.class))).thenReturn(sink);
final ExecutionDag executionDag = new ExecutionDag(exDag);
return new Tuple<>(dag, executionDag);
}Example 50 with MISTEdge
use of edu.snu.mist.common.graph.MISTEdge in project mist by snuspl.
the class MergeAwareQueryRemoverTest method removeQueryFromMergedExecutionQueriesTest.
/**
* Case 3: Remove a query where two queries are merged.
* Query1: src1 -> oc1 -> sink1
* Query2: src2 -> oc2 -> sink2
* Merged: src1 -> oc1 -> sink1
* -> sink2
* After removing query2:
* src1 -> oc1 -> sink1
* @throws org.apache.reef.tang.exceptions.InjectionException
*/
@Test
public void removeQueryFromMergedExecutionQueriesTest() throws InjectionException, IOException, ClassNotFoundException {
// Create a query 1:
// src1 -> oc1 -> sink1
final List<String> result1 = new LinkedList<>();
final Map<String, String> sourceConf = idAndConfGenerator.generateConf();
final Map<String, String> operatorConf = idAndConfGenerator.generateConf();
final TestSource src1 = generateSource(sourceConf);
final Map<String, String> sinkConf1 = idAndConfGenerator.generateConf();
final PhysicalOperator physicalOp1 = generateFilterOperator(operatorConf, (s) -> true);
final PhysicalSink<String> sink1 = generateSink(sinkConf1, result1);
// Config vertices
final ConfigVertex srcVertex1 = new ConfigVertex(Long.toString(configVertexId.getAndIncrement()), ExecutionVertex.Type.SOURCE, sourceConf);
final ConfigVertex ocVertex1 = new ConfigVertex(Long.toString(configVertexId.getAndIncrement()), ExecutionVertex.Type.OPERATOR, operatorConf);
final ConfigVertex sinkVertex1 = new ConfigVertex(Long.toString(configVertexId.getAndIncrement()), ExecutionVertex.Type.SINK, sinkConf1);
final List<String> paths1 = mock(List.class);
// Create dag
final Tuple<DAG<ConfigVertex, MISTEdge>, ExecutionDag> dagTuple1 = generateSimpleDag(src1, physicalOp1, sink1, srcVertex1, ocVertex1, sinkVertex1);
// Create a query 2:
// src2 -> oc2 -> sink2
// The configuration of src2 and operatorChain2 is same as that of src1 and operatorChain2.
final List<String> result2 = new LinkedList<>();
final Map<String, String> sinkConf2 = idAndConfGenerator.generateConf();
final TestSource src2 = generateSource(sourceConf);
final PhysicalOperator physicalOp2 = generateFilterOperator(operatorConf, (s) -> true);
final PhysicalSink<String> sink2 = generateSink(sinkConf2, result2);
final List<String> paths2 = mock(List.class);
// Config vertices
final ConfigVertex srcVertex2 = new ConfigVertex(Long.toString(configVertexId.getAndIncrement()), ExecutionVertex.Type.SOURCE, sourceConf);
final ConfigVertex ocVertex2 = new ConfigVertex(Long.toString(configVertexId.getAndIncrement()), ExecutionVertex.Type.SOURCE, operatorConf);
final ConfigVertex sinkVertex2 = new ConfigVertex(Long.toString(configVertexId.getAndIncrement()), ExecutionVertex.Type.SINK, sinkConf2);
// Create dag
final Tuple<DAG<ConfigVertex, MISTEdge>, ExecutionDag> dagTuple2 = generateSimpleDag(src2, physicalOp2, sink2, srcVertex2, ocVertex2, sinkVertex2);
final String query1Id = "q1";
final String query2Id = "q2";
// Merged dag
final ExecutionDag mergedExecutionDag = dagTuple1.getValue();
final DAG<ExecutionVertex, MISTEdge> dag = mergedExecutionDag.getDag();
dag.addVertex(sink2);
dag.addEdge(physicalOp1, sink2, new MISTEdge(Direction.LEFT));
// Add execution dag to srcAndDagMap
srcAndDagMap.put(sourceConf, mergedExecutionDag);
// Add execution dag to queryIdConfigDagMap
queryIdConfigDagMap.put(query1Id, dagTuple1.getKey());
queryIdConfigDagMap.put(query2Id, dagTuple2.getKey());
// ConfigExecutionVertexMap
configExecutionVertexMap.put(srcVertex1, src1);
configExecutionVertexMap.put(ocVertex1, physicalOp1);
configExecutionVertexMap.put(sinkVertex1, sink1);
configExecutionVertexMap.put(srcVertex2, src1);
configExecutionVertexMap.put(ocVertex2, physicalOp1);
configExecutionVertexMap.put(sinkVertex2, sink2);
// ExecutionDags
executionDags.add(mergedExecutionDag);
// ExecutionVertexCountMap
executionVertexCountMap.put(src1, 2);
executionVertexCountMap.put(physicalOp1, 2);
executionVertexCountMap.put(sink1, 1);
executionVertexCountMap.put(sink2, 1);
// ExecutionVertexDagMap
executionVertexDagMap.put(src1, mergedExecutionDag);
executionVertexDagMap.put(physicalOp1, mergedExecutionDag);
executionVertexDagMap.put(sink1, mergedExecutionDag);
executionVertexDagMap.put(sink2, mergedExecutionDag);
// Remove query2
queryRemover.deleteQuery(query2Id);
// Check srcAndDagMap
Assert.assertEquals(1, srcAndDagMap.size());
Assert.assertEquals(dagTuple1.getValue(), srcAndDagMap.get(src1.getConfiguration()));
// Check queryIdConfigDagMap
Assert.assertNull(queryIdConfigDagMap.get(query2Id));
Assert.assertEquals(dagTuple1.getKey(), queryIdConfigDagMap.get(query1Id));
// Check configExecutionVertexMap
Assert.assertEquals(src1, configExecutionVertexMap.get(srcVertex1));
Assert.assertEquals(physicalOp1, configExecutionVertexMap.get(ocVertex1));
Assert.assertEquals(sink1, configExecutionVertexMap.get(sinkVertex1));
Assert.assertNull(configExecutionVertexMap.get(srcVertex2));
Assert.assertNull(configExecutionVertexMap.get(ocVertex2));
Assert.assertNull(configExecutionVertexMap.get(sinkVertex2));
// Check ExecutionDags
Assert.assertEquals(1, executionDags.values().size());
// Check ExecutionVertexCountMap
Assert.assertEquals(1, (int) executionVertexCountMap.get(src1));
Assert.assertEquals(1, (int) executionVertexCountMap.get(physicalOp1));
Assert.assertEquals(1, (int) executionVertexCountMap.get(sink1));
Assert.assertNull(executionVertexCountMap.get(src2));
Assert.assertNull(executionVertexCountMap.get(physicalOp2));
Assert.assertNull(executionVertexCountMap.get(sink2));
// Check ExecutionVertexDagMap
final DAG<ExecutionVertex, MISTEdge> dag1 = dagTuple1.getValue().getDag();
Assert.assertTrue(GraphUtils.compareTwoDag(dag1, executionVertexDagMap.get(src1).getDag()));
Assert.assertTrue(GraphUtils.compareTwoDag(dag1, executionVertexDagMap.get(physicalOp1).getDag()));
Assert.assertTrue(GraphUtils.compareTwoDag(dag1, executionVertexDagMap.get(sink1).getDag()));
Assert.assertNull(executionVertexDagMap.get(src2));
Assert.assertNull(executionVertexDagMap.get(physicalOp2));
Assert.assertNull(executionVertexDagMap.get(sink2));
// Check if the execution dag is changed correctly
final Map<ExecutionVertex, MISTEdge> oc1Edges = mergedExecutionDag.getDag().getEdges(physicalOp1);
Assert.assertEquals(1, oc1Edges.size());
Assert.assertEquals(sink1, oc1Edges.keySet().iterator().next());
}
Also used :
DAG(edu.snu.mist.common.graph.DAG)
AdjacentListDAG(edu.snu.mist.common.graph.AdjacentListDAG)
LinkedList(java.util.LinkedList)
MISTEdge(edu.snu.mist.common.graph.MISTEdge)
Test(org.junit.Test)
Aggregations
MISTEdge (edu.snu.mist.common.graph.MISTEdge)50
Test (org.junit.Test)23
Tuple2 (edu.snu.mist.common.types.Tuple2)12
MISTStream (edu.snu.mist.client.datastreams.MISTStream)11
Map (java.util.Map)11
DAG (edu.snu.mist.common.graph.DAG)9
Direction (edu.snu.mist.formats.avro.Direction)8
IOException (java.io.IOException)8
HashMap (java.util.HashMap)8
InjectionException (org.apache.reef.tang.exceptions.InjectionException)6
MISTQuery (edu.snu.mist.client.MISTQuery)5
MISTQueryBuilder (edu.snu.mist.client.MISTQueryBuilder)5
UDFTestUtils (edu.snu.mist.client.utils.UDFTestUtils)5
AdjacentListDAG (edu.snu.mist.common.graph.AdjacentListDAG)5
TimeWindowInformation (edu.snu.mist.common.windows.TimeWindowInformation)5
List (java.util.List)5
MqttMessage (org.eclipse.paho.client.mqttv3.MqttMessage)5
TestParameters (edu.snu.mist.client.utils.TestParameters)4
SerializeUtils (edu.snu.mist.common.SerializeUtils)4
ConfKeys (edu.snu.mist.common.configurations.ConfKeys)4
