@SuppressWarnings("rawtypes") private static void removeMergeBeforeFlatten(StreamGraph streamGraph) { Set<Entry<Integer, StreamInvokable<?, ?>>> invokables = streamGraph.getInvokables(); List<Integer> flatteners = new ArrayList<Integer>(); for (Entry<Integer, StreamInvokable<?, ?>> entry : invokables) { if (entry.getValue() instanceof WindowFlattener) { flatteners.add(entry.getKey()); } } for (Integer flattener : flatteners) { // Flatteners should have exactly one input Integer input = streamGraph.getInEdges(flattener).get(0); // Check whether the flatten is applied after a merge if (streamGraph.getInvokable(input) instanceof WindowMerger) { // Mergers should have exactly one input Integer mergeInput = streamGraph.getInEdges(input).get(0); streamGraph.setEdge( mergeInput, flattener, new DistributePartitioner(true), 0, new ArrayList<String>()); // If the merger is only connected to the flattener we delete it // completely, otherwise we only remove the edge if (streamGraph.getOutEdges(input).size() > 1) { streamGraph.removeEdge(input, flattener); } else { streamGraph.removeVertex(input); } streamGraph.setParallelism(flattener, streamGraph.getParallelism(mergeInput)); } } }
private static void setDiscretizerReuse(StreamGraph streamGraph) { Set<Entry<Integer, StreamInvokable<?, ?>>> invokables = streamGraph.getInvokables(); List<Tuple2<Integer, StreamDiscretizer<?>>> discretizers = new ArrayList<Tuple2<Integer, StreamDiscretizer<?>>>(); // Get the discretizers for (Entry<Integer, StreamInvokable<?, ?>> entry : invokables) { if (entry.getValue() instanceof StreamDiscretizer) { discretizers.add( new Tuple2<Integer, StreamDiscretizer<?>>( entry.getKey(), (StreamDiscretizer<?>) entry.getValue())); } } List<Tuple2<StreamDiscretizer<?>, List<Integer>>> matchingDiscretizers = new ArrayList<Tuple2<StreamDiscretizer<?>, List<Integer>>>(); for (Tuple2<Integer, StreamDiscretizer<?>> discretizer : discretizers) { boolean inMatching = false; for (Tuple2<StreamDiscretizer<?>, List<Integer>> matching : matchingDiscretizers) { Set<Integer> discretizerInEdges = new HashSet<Integer>(streamGraph.getInEdges(discretizer.f0)); Set<Integer> matchingInEdges = new HashSet<Integer>(streamGraph.getInEdges(matching.f1.get(0))); if (discretizer.f1.equals(matching.f0) && discretizerInEdges.equals(matchingInEdges)) { matching.f1.add(discretizer.f0); inMatching = true; break; } } if (!inMatching) { List<Integer> matchingNames = new ArrayList<Integer>(); matchingNames.add(discretizer.f0); matchingDiscretizers.add( new Tuple2<StreamDiscretizer<?>, List<Integer>>(discretizer.f1, matchingNames)); } } for (Tuple2<StreamDiscretizer<?>, List<Integer>> matching : matchingDiscretizers) { List<Integer> matchList = matching.f1; if (matchList.size() > 1) { Integer first = matchList.get(0); for (int i = 1; i < matchList.size(); i++) { replaceDiscretizer(streamGraph, matchList.get(i), first); } } } }