@Override public ExecutionEnvironment createExecutionEnvironment() { return new TestEnvironment( jobExecutor, parallelism, false, jarFiles, classPaths ); } };
public void setAsContext() { ExecutionEnvironmentFactory factory = new ExecutionEnvironmentFactory() { @Override public ExecutionEnvironment createExecutionEnvironment() { lastEnv = new TestEnvironment(jobExecutor, getParallelism(), getConfig().isObjectReuseEnabled()); return lastEnv; } }; initializeContextEnvironment(factory); }
/** * Sets the current {@link ExecutionEnvironment} to be a {@link TestEnvironment}. The test * environment executes the given jobs on a Flink mini cluster with the given default * parallelism and the additional jar files and class paths. * * @param jobExecutor The executor to run the jobs on * @param parallelism The default parallelism * @param jarFiles Additional jar files to execute the job with * @param classPaths Additional class paths to execute the job with */ public static void setAsContext( final JobExecutor jobExecutor, final int parallelism, final Collection<Path> jarFiles, final Collection<URL> classPaths) { ExecutionEnvironmentFactory factory = new ExecutionEnvironmentFactory() { @Override public ExecutionEnvironment createExecutionEnvironment() { return new TestEnvironment( jobExecutor, parallelism, false, jarFiles, classPaths ); } }; initializeContextEnvironment(factory); }
@Override public ExecutionEnvironment createExecutionEnvironment() { lastEnv = new TestEnvironment(jobExecutor, getParallelism(), getConfig().isObjectReuseEnabled()); return lastEnv; } };
@Override public void before() throws Exception { super.before(); clusterClient = createMiniClusterClient(); executionEnvironment = new TestEnvironment(getMiniCluster(), getNumberSlots(), false); executionEnvironment.setAsContext(); TestStreamEnvironment.setAsContext(getMiniCluster(), getNumberSlots()); }
@Override public ExecutionEnvironment createExecutionEnvironment() { return new TestEnvironment( jobExecutor, parallelism, false, jarFiles, classPaths ); } };
@Override public ExecutionEnvironment createExecutionEnvironment() { return new TestEnvironment( miniCluster, parallelism, false, jarFiles, classPaths ); } };
@Override public ExecutionEnvironment createExecutionEnvironment() { return new TestEnvironment( jobExecutor, parallelism, false, jarFiles, classPaths ); } };
@Override public ExecutionEnvironment createExecutionEnvironment() { return new TestEnvironment( jobExecutor, parallelism, false, jarFiles, classPaths ); } };
public void setAsContext() { ExecutionEnvironmentFactory factory = new ExecutionEnvironmentFactory() { @Override public ExecutionEnvironment createExecutionEnvironment() { lastEnv = new TestEnvironment(jobExecutor, getParallelism(), getConfig().isObjectReuseEnabled(), jarFiles, classPaths); return lastEnv; } }; initializeContextEnvironment(factory); }
public void setAsContext() { ExecutionEnvironmentFactory factory = new ExecutionEnvironmentFactory() { @Override public ExecutionEnvironment createExecutionEnvironment() { lastEnv = new TestEnvironment(jobExecutor, getParallelism(), getConfig().isObjectReuseEnabled()); return lastEnv; } }; initializeContextEnvironment(factory); }
public void setAsContext() { ExecutionEnvironmentFactory factory = new ExecutionEnvironmentFactory() { @Override public ExecutionEnvironment createExecutionEnvironment() { lastEnv = new TestEnvironment(miniCluster, getParallelism(), getConfig().isObjectReuseEnabled()); return lastEnv; } }; initializeContextEnvironment(factory); }
@Override public ExecutionEnvironment createExecutionEnvironment() { lastEnv = new TestEnvironment(jobExecutor, getParallelism(), getConfig().isObjectReuseEnabled()); return lastEnv; } };
@Override public ExecutionEnvironment createExecutionEnvironment() { lastEnv = new TestEnvironment(jobExecutor, getParallelism(), getConfig().isObjectReuseEnabled(), jarFiles, classPaths); return lastEnv; } };
@Override public ExecutionEnvironment createExecutionEnvironment() { lastEnv = new TestEnvironment(miniCluster, getParallelism(), getConfig().isObjectReuseEnabled()); return lastEnv; } };
@Override public ExecutionEnvironment createExecutionEnvironment() { lastEnv = new TestEnvironment(jobExecutor, getParallelism(), getConfig().isObjectReuseEnabled()); return lastEnv; } };
@Override public void before() throws Exception { temporaryFolder.create(); startJobExecutorService(miniClusterType); numberSlots = miniClusterResourceConfiguration.getNumberSlotsPerTaskManager() * miniClusterResourceConfiguration.getNumberTaskManagers(); executionEnvironment = new TestEnvironment(jobExecutorService, numberSlots, false); executionEnvironment.setAsContext(); TestStreamEnvironment.setAsContext(jobExecutorService, numberSlots); }
/** * Creates a new instance of {@link GradoopFlinkTestBase}. */ public GradoopFlinkTestBase() { TestEnvironment testEnv = new TestEnvironment(CLUSTER, DEFAULT_PARALLELISM, false); // makes ExecutionEnvironment.getExecutionEnvironment() return this instance testEnv.setAsContext(); this.env = testEnv; this.graphLayoutFactory = new GVEGraphLayoutFactory(); this.collectionLayoutFactory = new GVECollectionLayoutFactory(); }
@Override public void before() throws Exception { super.before(); clusterClient = createMiniClusterClient(); executionEnvironment = new TestEnvironment(getMiniCluster(), getNumberSlots(), false); executionEnvironment.setAsContext(); TestStreamEnvironment.setAsContext(getMiniCluster(), getNumberSlots()); }
@Override public void before() throws Exception { super.before(); clusterClient = createMiniClusterClient(); executionEnvironment = new TestEnvironment(getMiniCluster(), getNumberSlots(), false); executionEnvironment.setAsContext(); TestStreamEnvironment.setAsContext(getMiniCluster(), getNumberSlots()); }