Java Code Examples for java.util.stream.collector#finisher()
The following examples show how to use
java.util.stream.collector#finisher() .
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Example 1
Source File: CassandraClientImpl.java From vertx-cassandra-client with Apache License 2.0 | 6 votes |
private <C, R> Future<R> executeAndCollect(Statement statement, Collector<Row, C, R> collector) { C container = collector.supplier().get(); BiConsumer<C, Row> accumulator = collector.accumulator(); Function<C, R> finisher = collector.finisher(); return queryStream(statement) .flatMap(cassandraRowStream -> { Promise<R> resultPromise = Promise.promise(); cassandraRowStream.endHandler(end -> { R result = finisher.apply(container); resultPromise.complete(result); }); cassandraRowStream.handler(row -> { accumulator.accept(container, row); }); cassandraRowStream.exceptionHandler(resultPromise::fail); return resultPromise.future(); }); }
Example 2
Source File: Internals.java From streamex with Apache License 2.0 | 6 votes |
@SuppressWarnings("unchecked") static <K, D, A, M extends Map<K, D>> PartialCollector<Map<K, A>, M> grouping(Supplier<M> mapFactory, Collector<?, A, D> downstream) { BinaryOperator<A> downstreamMerger = downstream.combiner(); BiConsumer<Map<K, A>, Map<K, A>> merger = (map1, map2) -> { for (Map.Entry<K, A> e : map2.entrySet()) map1.merge(e.getKey(), e.getValue(), downstreamMerger); }; if (downstream.characteristics().contains(Collector.Characteristics.IDENTITY_FINISH)) { return (PartialCollector<Map<K, A>, M>) new PartialCollector<>((Supplier<Map<K, A>>) mapFactory, merger, Function.identity(), ID_CHARACTERISTICS); } Function<A, D> downstreamFinisher = downstream.finisher(); return new PartialCollector<>((Supplier<Map<K, A>>) mapFactory, merger, map -> { map.replaceAll((k, v) -> ((Function<A, A>) downstreamFinisher).apply(v)); return (M) map; }, NO_CHARACTERISTICS); }
Example 3
Source File: IncrementalPageBucketReceiver.java From crate with Apache License 2.0 | 6 votes |
public IncrementalPageBucketReceiver(Collector<Row, T, Iterable<Row>> collector, RowConsumer rowConsumer, Executor executor, Streamer<?>[] streamers, int upstreamsCount) { this.state = collector.supplier().get(); this.accumulator = collector.accumulator(); this.finisher = collector.finisher(); this.executor = executor; this.streamers = streamers; this.remainingUpstreams = new AtomicInteger(upstreamsCount); lazyBatchIterator = CollectingBatchIterator.newInstance( () -> {}, t -> {}, () -> processingFuture, true); rowConsumer.accept(lazyBatchIterator, null); }
Example 4
Source File: MonoStreamCollectorTest.java From reactor-core with Apache License 2.0 | 5 votes |
@Test public void scanStreamCollectorSubscriber() { CoreSubscriber<List<String>> actual = new LambdaMonoSubscriber<>(null, e -> {}, null, null); Collector<String, ?, List<String>> collector = Collectors.toList(); @SuppressWarnings("unchecked") BiConsumer<Integer, String> accumulator = (BiConsumer<Integer, String>) collector.accumulator(); @SuppressWarnings("unchecked") Function<Integer, List<String>> finisher = (Function<Integer, List<String>>) collector.finisher(); MonoStreamCollector.StreamCollectorSubscriber<String, Integer, List<String>> test = new MonoStreamCollector.StreamCollectorSubscriber<>( actual, 1, accumulator, finisher); Subscription parent = Operators.emptySubscription(); test.onSubscribe(parent); assertThat(test.scan(Scannable.Attr.PREFETCH)).isEqualTo(Integer.MAX_VALUE); assertThat(test.scan(Scannable.Attr.PARENT)).isSameAs(parent); assertThat(test.scan(Scannable.Attr.ACTUAL)).isSameAs(actual); assertThat(test.scan(Scannable.Attr.TERMINATED)).isFalse(); test.onError(new IllegalStateException("boom")); assertThat(test.scan(Scannable.Attr.TERMINATED)).isTrue(); assertThat(test.scan(Scannable.Attr.CANCELLED)).isFalse(); test.cancel(); assertThat(test.scan(Scannable.Attr.CANCELLED)).isTrue(); }
Example 5
Source File: Internals.java From streamex with Apache License 2.0 | 5 votes |
static <A, R> PartialCollector<Box<A>, R> partialCollector(Collector<?, A, R> c) { Supplier<A> supplier = c.supplier(); BinaryOperator<A> combiner = c.combiner(); Function<A, R> finisher = c.finisher(); return new PartialCollector<>(() -> new Box<>(supplier.get()), (box1, box2) -> box1.a = combiner.apply( box1.a, box2.a), box -> finisher.apply(box.a), NO_CHARACTERISTICS); }
Example 6
Source File: MoreCollectors.java From streamex with Apache License 2.0 | 5 votes |
/** * Adapts a {@code Collector} accepting elements of type {@code U} to one * accepting elements of type {@code T} by applying a flat mapping function * to each input element before accumulation. The flat mapping function maps * an input element to a {@link Stream stream} covering zero or more output * elements that are then accumulated downstream. Each mapped stream is * {@link java.util.stream.BaseStream#close() closed} after its contents * have been placed downstream. (If a mapped stream is {@code null} an empty * stream is used, instead.) * * <p> * This method is similar to {@code Collectors.flatMapping} method which * appears in JDK 9. However when downstream collector is * <a href="package-summary.html#ShortCircuitReduction">short-circuiting</a> * , this method will also return a short-circuiting collector. * * @param <T> the type of the input elements * @param <U> type of elements accepted by downstream collector * @param <A> intermediate accumulation type of the downstream collector * @param <R> result type of collector * @param mapper a function to be applied to the input elements, which * returns a stream of results * @param downstream a collector which will receive the elements of the * stream returned by mapper * @return a collector which applies the mapping function to the input * elements and provides the flat mapped results to the downstream * collector * @throws NullPointerException if mapper is null, or downstream is null. * @since 0.4.1 */ public static <T, U, A, R> Collector<T, ?, R> flatMapping(Function<? super T, ? extends Stream<? extends U>> mapper, Collector<? super U, A, R> downstream) { Objects.requireNonNull(mapper); BiConsumer<A, ? super U> downstreamAccumulator = downstream.accumulator(); Predicate<A> finished = finished(downstream); if (finished != null) { return new CancellableCollectorImpl<>(downstream.supplier(), (acc, t) -> { if (finished.test(acc)) return; try (Stream<? extends U> stream = mapper.apply(t)) { if (stream != null) { stream.spliterator().forEachRemaining(u -> { downstreamAccumulator.accept(acc, u); if (finished.test(acc)) throw new CancelException(); }); } } catch (CancelException ex) { // ignore } }, downstream.combiner(), downstream.finisher(), finished, downstream.characteristics()); } return Collector.of(downstream.supplier(), (acc, t) -> { try (Stream<? extends U> stream = mapper.apply(t)) { if (stream != null) { stream.spliterator().forEachRemaining(u -> downstreamAccumulator.accept(acc, u)); } } }, downstream.combiner(), downstream.finisher(), downstream.characteristics().toArray(new Characteristics[0])); }
Example 7
Source File: EntryStream.java From streamex with Apache License 2.0 | 4 votes |
/** * Merge series of adjacent stream entries with equal keys combining the * corresponding values using the provided {@code Collector}. * * <p> * This is a <a href="package-summary.html#StreamOps">quasi-intermediate</a> * partial reduction operation. * * <p> * The key of the resulting entry is the key of the first merged entry. * * @param <R> the type of the values in the resulting stream * @param <A> the intermediate accumulation type of the {@code Collector} * @param collector a {@code Collector} which is used to combine the values * of the adjacent entries with the equal keys. * @return a new {@code EntryStream} which keys are the keys of the original * stream and the values are values of the adjacent entries with the * same keys, combined using the provided collector. * @see StreamEx#collapse(BiPredicate, Collector) * @since 0.5.5 */ public <A, R> EntryStream<K, R> collapseKeys(Collector<? super V, A, R> collector) { Supplier<A> supplier = collector.supplier(); BiConsumer<A, ? super V> accumulator = collector.accumulator(); BinaryOperator<A> combiner = collector.combiner(); Function<A, R> finisher = collector.finisher(); return new StreamEx<>(new CollapseSpliterator<>(equalKeys(), e -> { A a = supplier.get(); accumulator.accept(a, e.getValue()); return new PairBox<>(e.getKey(), a); }, (pb, e) -> { accumulator.accept(pb.b, e.getValue()); return pb; }, (pb1, pb2) -> { pb1.b = combiner.apply(pb1.b, pb2.b); return pb1; }, spliterator()), context).mapToEntry(pb -> pb.a, pb -> finisher.apply(pb.b)); }
Example 8
Source File: MultiActionListener.java From crate with Apache License 2.0 | 4 votes |
public MultiActionListener(int numResponses, Collector<I, S, R> collector, ActionListener<? super R> listener) { this(numResponses, collector.supplier(), collector.accumulator(), collector.finisher(), listener); }
Example 9
Source File: LongCollector.java From streamex with Apache License 2.0 | 3 votes |
/** * Adapts a {@link Collector} accepting elements of type {@code U} to a * {@code LongCollector} by applying a mapping function to each input * element before accumulation. * * @param <U> type of elements accepted by downstream collector * @param <A> intermediate accumulation type of the downstream collector * @param <R> result type of collector * @param mapper a function to be applied to the input elements * @param downstream a collector which will accept mapped values * @return a collector which applies the mapping function to the input * elements and provides the mapped results to the downstream * collector */ static <U, A, R> LongCollector<?, R> mappingToObj(LongFunction<U> mapper, Collector<U, A, R> downstream) { BiConsumer<A, U> accumulator = downstream.accumulator(); if (downstream instanceof MergingCollector) { return new LongCollectorImpl<>(downstream.supplier(), (acc, i) -> accumulator.accept(acc, mapper.apply(i)), ((MergingCollector<U, A, R>) downstream).merger(), downstream.finisher(), downstream .characteristics()); } return Box.partialCollector(downstream).asLong((box, i) -> accumulator.accept(box.a, mapper.apply(i))); }
Example 10
Source File: IntCollector.java From streamex with Apache License 2.0 | 3 votes |
/** * Adapts a {@link Collector} accepting elements of type {@code U} to an * {@code IntCollector} by applying a mapping function to each input element * before accumulation. * * @param <U> type of elements accepted by downstream collector * @param <A> intermediate accumulation type of the downstream collector * @param <R> result type of collector * @param mapper a function to be applied to the input elements * @param downstream a collector which will accept mapped values * @return a collector which applies the mapping function to the input * elements and provides the mapped results to the downstream * collector */ static <U, A, R> IntCollector<?, R> mappingToObj(IntFunction<U> mapper, Collector<U, A, R> downstream) { BiConsumer<A, U> accumulator = downstream.accumulator(); if (downstream instanceof MergingCollector) { return new IntCollectorImpl<>(downstream.supplier(), (acc, i) -> accumulator.accept(acc, mapper.apply(i)), ((MergingCollector<U, A, R>) downstream).merger(), downstream.finisher(), downstream .characteristics()); } return Box.partialCollector(downstream).asInt((box, i) -> accumulator.accept(box.a, mapper.apply(i))); }
Example 11
Source File: MoreCollectors.java From streamex with Apache License 2.0 | 3 votes |
/** * Adapts a {@code Collector} accepting elements of type {@code U} to one * accepting elements of type {@code T} by applying a mapping function to * each input element before accumulation. * * <p> * Unlike {@link Collectors#mapping(Function, Collector)} this method * returns a * <a href="package-summary.html#ShortCircuitReduction">short-circuiting * collector</a> if the downstream collector is short-circuiting. * * @param <T> the type of the input elements * @param <U> type of elements accepted by downstream collector * @param <A> intermediate accumulation type of the downstream collector * @param <R> result type of collector * @param mapper a function to be applied to the input elements * @param downstream a collector which will accept mapped values * @return a collector which applies the mapping function to the input * elements and provides the mapped results to the downstream * collector * @throws NullPointerException if mapper is null, or downstream is null. * @see Collectors#mapping(Function, Collector) * @since 0.4.0 */ public static <T, U, A, R> Collector<T, ?, R> mapping(Function<? super T, ? extends U> mapper, Collector<? super U, A, R> downstream) { Objects.requireNonNull(mapper); Predicate<A> finished = finished(downstream); if (finished != null) { BiConsumer<A, ? super U> downstreamAccumulator = downstream.accumulator(); return new CancellableCollectorImpl<>(downstream.supplier(), (acc, t) -> { if (!finished.test(acc)) downstreamAccumulator.accept(acc, mapper.apply(t)); }, downstream.combiner(), downstream.finisher(), finished, downstream.characteristics()); } return Collectors.mapping(mapper, downstream); }
Example 12
Source File: DoubleCollector.java From streamex with Apache License 2.0 | 3 votes |
/** * Adapts a {@link Collector} accepting elements of type {@code U} to a * {@code DoubleCollector} by applying a mapping function to each input * element before accumulation. * * @param <U> type of elements accepted by downstream collector * @param <A> intermediate accumulation type of the downstream collector * @param <R> result type of collector * @param mapper a function to be applied to the input elements * @param downstream a collector which will accept mapped values * @return a collector which applies the mapping function to the input * elements and provides the mapped results to the downstream * collector */ static <U, A, R> DoubleCollector<?, R> mappingToObj(DoubleFunction<U> mapper, Collector<U, A, R> downstream) { BiConsumer<A, U> accumulator = downstream.accumulator(); if (downstream instanceof MergingCollector) { return new DoubleCollectorImpl<>(downstream.supplier(), (acc, i) -> accumulator .accept(acc, mapper.apply(i)), ((MergingCollector<U, A, R>) downstream).merger(), downstream .finisher(), downstream.characteristics()); } return Box.partialCollector(downstream).asDouble((box, i) -> accumulator.accept(box.a, mapper.apply(i))); }