@Override public void open(final Configuration parameters) throws Exception { super.open(parameters); // register the accumulator instance getRuntimeContext().addAccumulator(EMPTY_FIELD_ACCUMULATOR, this.emptyFieldCounter); }
@Override public void open(Configuration parameters) throws Exception { super.open(parameters); if (closeCalled) { Assert.fail("Close called before open."); } openCalled = true; }
@Override public void open(Configuration parameters) throws Exception { super.open(parameters); queryHandler = new QueryHandler(query); }
@Override public void open(Configuration parameters) throws Exception { super.open(parameters); for (FilterFunction<? super T> component : components) { if (component instanceof RichFunction) { ((RichFunction) component).open(parameters); } } }
@Override public void open(Configuration parameters) throws Exception { super.open(parameters); queryHandler = new QueryHandler(query); }
@Override public void open(Configuration parameters) throws Exception { super.open(parameters); this.categoryMinFrequencies = getRuntimeContext() .<Map<String, Long>>getBroadcastVariable(DIMSpanConstants.MIN_FREQUENCY).get(0); }
@Override public void open(Configuration parameters) throws Exception { super.open(parameters); graphId = getRuntimeContext() .<GradoopId>getBroadcastVariable(GRAPH_ID).get(0); } }
@Override public void open(Configuration parameters) throws Exception { super.open(parameters); this.minFrequency = getRuntimeContext() .<Long>getBroadcastVariable(DIMSpanConstants.MIN_FREQUENCY).get(0); }
@Override public void open(Configuration parameters) throws Exception { super.open(parameters); this.minFrequency = getRuntimeContext() .<Long>getBroadcastVariable(DIMSpanConstants.MIN_FREQUENCY).get(0); }
@Override public void open(Configuration parameters) throws Exception { super.open(parameters); currentIteration = getIterationRuntimeContext().getSuperstepNumber() * 2 - 1; }
@Override public void open(final Configuration parameters) throws Exception { super.open(parameters); // register the accumulator instance getRuntimeContext().addAccumulator(EMPTY_FIELD_ACCUMULATOR, this.emptyFieldCounter); }
@Override public void open(Configuration parameters) throws Exception { super.open(parameters); currentIteration = getIterationRuntimeContext().getSuperstepNumber() * 2 - 1; }
@Override public void open(final Configuration parameters) throws Exception { super.open(parameters); // register the accumulator instance getRuntimeContext().addAccumulator(EMPTY_FIELD_ACCUMULATOR, this.emptyFieldCounter); }
@Override public void open(final Configuration parameters) throws Exception { super.open(parameters); // register the accumulator instance getRuntimeContext().addAccumulator(EMPTY_FIELD_ACCUMULATOR, this.emptyFieldCounter); }
@Override public void open(Configuration parameters) throws Exception { super.open(parameters); graphIds = GradoopIdSet.fromExisting(getRuntimeContext().getBroadcastVariable(GRAPH_IDS)); } }
@Override public void open(Configuration parameters) throws Exception { super.open(parameters); ids = GradoopIdSet.fromExisting(getRuntimeContext().getBroadcastVariable(IDS)); }
@Override public void open(Configuration parameters) throws Exception { super.open(parameters); int step = (int) getRuntimeContext() .getBroadcastVariable(ExplorativePatternMatching.BC_SUPERSTEP).get(0); candidate = (int) traversalCode.getStep(step - 1).getTo(); }
@Override public void open(Configuration parameters) throws Exception { super.open(parameters); graphIds = GradoopIdSet.fromExisting(getRuntimeContext().getBroadcastVariable(GRAPH_IDS)); } }
@Override public void open(Configuration parameters) throws Exception { super.open(parameters); int step = (int) getRuntimeContext() .getBroadcastVariable(ExplorativePatternMatching.BC_SUPERSTEP).get(0); candidate = (int) traversalCode.getStep(step - 1).getTo(); }
@Override public void open(Configuration parameters) throws Exception { super.open(parameters); ids = GradoopIdSet.fromExisting(getRuntimeContext().getBroadcastVariable(IDS)); }