@Test public void testHeadTail() { List<Integer> ints = IntStreamEx.range(1000).boxed().toList(); checkShortCircuitCollector("tail(0)", Arrays.asList(), 0, ints::stream, MoreCollectors.tail(0)); checkCollector("tail(1)", Arrays.asList(999), ints::stream, MoreCollectors.tail(1)); checkCollector("tail(2)", Arrays.asList(998, 999), ints::stream, MoreCollectors.tail(2)); checkCollector("tail(500)", ints.subList(500, 1000), ints::stream, MoreCollectors.tail(500)); checkCollector("tail(999)", ints.subList(1, 1000), ints::stream, MoreCollectors.tail(999)); checkCollector("tail(1000)", ints, ints::stream, MoreCollectors.tail(1000)); checkCollector("tail(MAX)", ints, ints::stream, MoreCollectors.tail(Integer.MAX_VALUE)); checkShortCircuitCollector("head(0)", Arrays.asList(), 0, ints::stream, MoreCollectors.head(0)); checkShortCircuitCollector( "head(1)", Arrays.asList(0), 1, ints::stream, MoreCollectors.head(1)); checkShortCircuitCollector( "head(2)", Arrays.asList(0, 1), 2, ints::stream, MoreCollectors.head(2)); checkShortCircuitCollector( "head(500)", ints.subList(0, 500), 500, ints::stream, MoreCollectors.head(500)); checkShortCircuitCollector( "head(999)", ints.subList(0, 999), 999, ints::stream, MoreCollectors.head(999)); checkShortCircuitCollector("head(1000)", ints, 1000, ints::stream, MoreCollectors.head(1000)); checkShortCircuitCollector( "head(MAX)", ints, 1000, ints::stream, MoreCollectors.head(Integer.MAX_VALUE)); checkShortCircuitCollector( "head(10000)", IntStreamEx.rangeClosed(1, 10000).boxed().toList(), 10000, () -> Stream.iterate(1, x -> x + 1), MoreCollectors.head(10000), true); }
@Test public void testMinIndex() { List<Integer> ints = IntStreamEx.of(new Random(1), 1000, 5, 47).boxed().toList(); long expectedMin = IntStreamEx.ofIndices(ints).minBy(ints::get).getAsInt(); long expectedMax = IntStreamEx.ofIndices(ints).maxBy(ints::get).getAsInt(); long expectedMinString = IntStreamEx.ofIndices(ints).minBy(i -> String.valueOf(ints.get(i))).getAsInt(); long expectedMaxString = IntStreamEx.ofIndices(ints).maxBy(i -> String.valueOf(ints.get(i))).getAsInt(); Comparator<Integer> cmp = Comparator.comparing(String::valueOf); checkCollector( "minIndex", OptionalLong.of(expectedMin), ints::stream, MoreCollectors.minIndex()); checkCollector( "maxIndex", OptionalLong.of(expectedMax), ints::stream, MoreCollectors.maxIndex()); checkCollector( "minIndex", OptionalLong.of(expectedMinString), ints::stream, MoreCollectors.minIndex(cmp)); checkCollector( "maxIndex", OptionalLong.of(expectedMaxString), ints::stream, MoreCollectors.maxIndex(cmp)); Supplier<Stream<String>> supplier = () -> ints.stream().map(Object::toString); checkCollector( "minIndex", OptionalLong.of(expectedMinString), supplier, MoreCollectors.minIndex()); checkCollector( "maxIndex", OptionalLong.of(expectedMaxString), supplier, MoreCollectors.maxIndex()); checkCollectorEmpty("minIndex", OptionalLong.empty(), MoreCollectors.<String>minIndex()); checkCollectorEmpty("maxIndex", OptionalLong.empty(), MoreCollectors.<String>maxIndex()); }
@Test public void testOnlyOne() { List<Integer> ints = IntStreamEx.rangeClosed(1, 100).boxed().toList(); checkShortCircuitCollector("One", Optional.empty(), 2, ints::stream, MoreCollectors.onlyOne()); checkShortCircuitCollector( "FilterSeveral", Optional.empty(), 2, () -> ints.stream().filter(x -> x % 20 == 0), MoreCollectors.onlyOne()); checkShortCircuitCollector( "FilterSeveral2", Optional.empty(), 40, ints::stream, MoreCollectors.filtering(x -> x % 20 == 0, MoreCollectors.onlyOne())); checkShortCircuitCollector( "FilterOne", Optional.of(60), 1, () -> ints.stream().filter(x -> x % 60 == 0), MoreCollectors.onlyOne()); checkShortCircuitCollector( "FilterNone", Optional.empty(), 0, () -> ints.stream().filter(x -> x % 110 == 0), MoreCollectors.onlyOne()); }
@Test public void testFirstLast() { Supplier<Stream<Integer>> s = () -> IntStreamEx.range(1000).boxed(); checkShortCircuitCollector("first", Optional.of(0), 1, s, MoreCollectors.first()); checkShortCircuitCollector( "firstLong", Optional.of(0), 1, () -> Stream.of(1).flatMap(x -> IntStream.range(0, 1000000000).boxed()), MoreCollectors.first(), true); checkShortCircuitCollector( "first", Optional.of(1), 1, () -> Stream.iterate(1, x -> x + 1), MoreCollectors.first(), true); assertEquals( 1, (int) StreamEx.iterate(1, x -> x + 1).parallel().collect(MoreCollectors.first()).get()); checkCollector("last", Optional.of(999), s, MoreCollectors.last()); checkCollectorEmpty("first", Optional.empty(), MoreCollectors.first()); checkCollectorEmpty("last", Optional.empty(), MoreCollectors.last()); }
@Test public void testToEnumSet() { TimeUnit[] vals = TimeUnit.values(); List<TimeUnit> enumValues = IntStreamEx.range(100).map(x -> x % vals.length).elements(vals).toList(); checkShortCircuitCollector( "toEnumSet", EnumSet.allOf(TimeUnit.class), vals.length, enumValues::stream, MoreCollectors.toEnumSet(TimeUnit.class)); enumValues = IntStreamEx.range(100).map(x -> x % (vals.length - 1)).elements(vals).toList(); EnumSet<TimeUnit> expected = EnumSet.allOf(TimeUnit.class); expected.remove(vals[vals.length - 1]); checkShortCircuitCollector( "toEnumSet", expected, 100, enumValues::stream, MoreCollectors.toEnumSet(TimeUnit.class)); checkCollectorEmpty( "Empty", EnumSet.noneOf(TimeUnit.class), MoreCollectors.toEnumSet(TimeUnit.class)); }
@Test public void testAndInt() { List<Integer> ints = Arrays.asList(0b1100, 0b0110, 0b101110, 0b11110011); Collector<Integer, ?, OptionalInt> collector = MoreCollectors.andingInt(Integer::intValue); checkShortCircuitCollector("andInt", OptionalInt.of(0), 4, ints::stream, collector); checkCollectorEmpty("andIntEmpty", OptionalInt.empty(), collector); assertEquals( OptionalInt.of(0), IntStreamEx.iterate(16384, i -> i + 1).parallel().boxed().collect(collector)); assertEquals( OptionalInt.of(16384), IntStreamEx.iterate(16384, i -> i + 1).parallel().limit(16383).boxed().collect(collector)); Collector<Integer, ?, Integer> unwrapped = MoreCollectors.collectingAndThen( MoreCollectors.andingInt(Integer::intValue), OptionalInt::getAsInt); assertTrue(unwrapped.characteristics().contains(Characteristics.UNORDERED)); checkShortCircuitCollector("andIntUnwrapped", 0, 4, ints::stream, unwrapped); checkShortCircuitCollector( "andIntUnwrapped", 0, 2, Arrays.asList(0x1, 0x10, 0x100)::stream, unwrapped); }
@Test public void testGroupingByWithDomain() { List<String> data = Arrays.asList("a", "foo", "test", "ququq", "bar", "blahblah"); Collector<String, ?, String> collector = MoreCollectors.collectingAndThen( MoreCollectors.groupingBy( String::length, IntStreamEx.range(10).boxed().toSet(), TreeMap::new, MoreCollectors.first()), Object::toString); checkShortCircuitCollector( "groupingWithDomain", "{0=Optional.empty, 1=Optional[a], 2=Optional.empty, 3=Optional[foo], 4=Optional[test], 5=Optional[ququq], " + "6=Optional.empty, 7=Optional.empty, 8=Optional[blahblah], 9=Optional.empty}", data.size(), data::stream, collector); Map<String, String> name2sex = new LinkedHashMap<>(); name2sex.put("Mary", "Girl"); name2sex.put("John", "Boy"); name2sex.put("James", "Boy"); name2sex.put("Lucie", "Girl"); name2sex.put("Fred", "Boy"); name2sex.put("Thomas", "Boy"); name2sex.put("Jane", "Girl"); name2sex.put("Ruth", "Girl"); name2sex.put("Melanie", "Girl"); Collector<Entry<String, String>, ?, Map<String, List<String>>> groupingBy = MoreCollectors.groupingBy( Entry::getValue, StreamEx.of("Girl", "Boy").toSet(), MoreCollectors.mapping(Entry::getKey, MoreCollectors.head(2))); AtomicInteger counter = new AtomicInteger(); Map<String, List<String>> map = EntryStream.of(name2sex).peek(c -> counter.incrementAndGet()).collect(groupingBy); assertEquals(Arrays.asList("Mary", "Lucie"), map.get("Girl")); assertEquals(Arrays.asList("John", "James"), map.get("Boy")); assertEquals(4, counter.get()); Collector<Entry<String, String>, ?, Map<String, String>> groupingByJoin = MoreCollectors.groupingBy( Entry::getValue, StreamEx.of("Girl", "Boy").toSet(), MoreCollectors.mapping( Entry::getKey, Joining.with(", ").maxChars(16).cutAfterDelimiter())); counter.set(0); Map<String, String> mapJoin = EntryStream.of(name2sex).peek(c -> counter.incrementAndGet()).collect(groupingByJoin); assertEquals("Mary, Lucie, ...", mapJoin.get("Girl")); assertEquals("John, James, ...", mapJoin.get("Boy")); assertEquals(7, counter.get()); }
@Test public void testPartitioningBy() { Collector<Integer, ?, Map<Boolean, Optional<Integer>>> by20 = MoreCollectors.partitioningBy(x -> x % 20 == 0, MoreCollectors.first()); Collector<Integer, ?, Map<Boolean, Optional<Integer>>> by200 = MoreCollectors.partitioningBy(x -> x % 200 == 0, MoreCollectors.first()); Supplier<Stream<Integer>> supplier = () -> IntStreamEx.range(1, 100).boxed(); checkShortCircuitCollector( "by20", new BooleanMap<>(Optional.of(20), Optional.of(1)), 20, supplier, by20); checkShortCircuitCollector( "by200", new BooleanMap<>(Optional.empty(), Optional.of(1)), 99, supplier, by200); }
@Test public void testToBooleanArray() { List<Integer> input = IntStreamEx.of(new Random(1), 1000, 1, 100).boxed().toList(); boolean[] expected = new boolean[input.size()]; for (int i = 0; i < expected.length; i++) expected[i] = input.get(i) > 50; for (StreamExSupplier<Integer> supplier : streamEx(input::stream)) { assertArrayEquals( supplier.toString(), expected, supplier.get().collect(MoreCollectors.toBooleanArray(x -> x > 50))); } }
@Test public void testHeadParallel() { List<Integer> expected = IntStreamEx.range(0, 2000, 2).boxed().toList(); List<Integer> expectedShort = Arrays.asList(0, 1); for (int i = 0; i < 1000; i++) { assertEquals( "#" + i, expectedShort, IntStreamEx.range(1000).boxed().parallel().collect(MoreCollectors.head(2))); assertEquals( "#" + i, expected, IntStreamEx.range(10000) .boxed() .parallel() .filter(x -> x % 2 == 0) .collect(MoreCollectors.head(1000))); } assertEquals( expectedShort, StreamEx.iterate(0, x -> x + 1).parallel().collect(MoreCollectors.head(2))); }
@Test public void testGreatest() { List<Integer> ints = IntStreamEx.of(new Random(1), 1000, 1, 1000).boxed().toList(); List<Integer> sorted = StreamEx.of(ints).sorted().toList(); List<Integer> revSorted = StreamEx.of(ints).reverseSorted().toList(); Comparator<Integer> byString = Comparator.comparing(String::valueOf); checkShortCircuitCollector( "least(0)", Collections.emptyList(), 0, ints::stream, MoreCollectors.least(0)); checkCollector("least(5)", sorted.subList(0, 5), ints::stream, MoreCollectors.least(5)); checkCollector("least(20)", sorted.subList(0, 20), ints::stream, MoreCollectors.least(20)); checkCollector("least(MAX)", sorted, ints::stream, MoreCollectors.least(Integer.MAX_VALUE)); checkCollector( "least(byString, 20)", StreamEx.of(ints).sorted(byString).limit(20).toList(), ints::stream, MoreCollectors.least(byString, 20)); checkShortCircuitCollector( "greatest(0)", Collections.emptyList(), 0, ints::stream, MoreCollectors.greatest(0)); checkCollector( "greatest(5)", revSorted.subList(0, 5), ints::stream, MoreCollectors.greatest(5)); checkCollector( "greatest(20)", revSorted.subList(0, 20), ints::stream, MoreCollectors.greatest(20)); checkCollector( "greatest(MAX)", revSorted, ints::stream, MoreCollectors.greatest(Integer.MAX_VALUE)); checkCollector( "greatest(byString, 20)", StreamEx.of(ints).reverseSorted(byString).limit(20).toList(), ints::stream, MoreCollectors.greatest(byString, 20)); Supplier<Stream<Integer>> s = () -> IntStreamEx.range(100).boxed(); checkCollector("1", IntStreamEx.range(1).boxed().toList(), s, MoreCollectors.least(1)); checkCollector("2", IntStreamEx.range(2).boxed().toList(), s, MoreCollectors.least(2)); checkCollector("10", IntStreamEx.range(10).boxed().toList(), s, MoreCollectors.least(10)); checkCollector("100", IntStreamEx.range(100).boxed().toList(), s, MoreCollectors.least(100)); checkCollector("200", IntStreamEx.range(100).boxed().toList(), s, MoreCollectors.least(200)); }
@Test public void testFlatMapping() { { Map<Integer, List<Integer>> expected = IntStreamEx.rangeClosed(1, 100) .boxed() .toMap(x -> IntStreamEx.rangeClosed(1, x).boxed().toList()); Collector<Integer, ?, Map<Integer, List<Integer>>> groupingBy = Collectors.groupingBy( Function.identity(), MoreCollectors.flatMapping( x -> IntStream.rangeClosed(1, x).boxed(), Collectors.toList())); checkCollector( "flatMappingSimple", expected, () -> IntStreamEx.rangeClosed(1, 100).boxed(), groupingBy); } Function<Entry<String, List<String>>, Stream<String>> valuesStream = e -> e.getValue() == null ? null : e.getValue().stream(); List<Entry<String, List<String>>> list = EntryStream.of( "a", Arrays.asList("bb", "cc", "dd"), "b", Arrays.asList("ee", "ff"), "c", null) .append("c", Arrays.asList("gg"), "b", null, "a", Arrays.asList("hh")) .toList(); { Map<String, List<String>> expected = EntryStream.of(list.stream()) .flatMapValues(l -> l == null ? null : l.stream()) .grouping(); checkCollector( "flatMappingCombine", expected, list::stream, Collectors.groupingBy( Entry::getKey, MoreCollectors.flatMapping(valuesStream, Collectors.toList()))); AtomicInteger openClose = new AtomicInteger(); Collector<Entry<String, List<String>>, ?, Map<String, List<String>>> groupingBy = Collectors.groupingBy( Entry::getKey, MoreCollectors.flatMapping( valuesStream.andThen( s -> { if (s == null) return null; openClose.incrementAndGet(); return s.onClose(openClose::decrementAndGet); }), Collectors.toList())); checkCollector( "flatMappingCombineClosed", expected, list::stream, MoreCollectors.collectingAndThen( groupingBy, res -> { assertEquals(0, openClose.get()); return res; })); boolean catched = false; try { Collector<Entry<String, List<String>>, ?, Map<String, List<String>>> groupingByException = Collectors.groupingBy( Entry::getKey, MoreCollectors.flatMapping( valuesStream.andThen( s -> { if (s == null) return null; openClose.incrementAndGet(); return s.onClose(openClose::decrementAndGet) .peek( e -> { if (e.equals("gg")) throw new IllegalArgumentException(e); }); }), Collectors.toList())); list.stream() .collect( MoreCollectors.collectingAndThen( groupingByException, res -> { assertEquals(0, openClose.get()); return res; })); } catch (IllegalArgumentException e1) { assertEquals("gg", e1.getMessage()); catched = true; } assertTrue(catched); } { Map<String, List<String>> expected = EntryStream.of( "a", Arrays.asList("bb"), "b", Arrays.asList("ee"), "c", Arrays.asList("gg")) .toMap(); Collector<Entry<String, List<String>>, ?, List<String>> headOne = MoreCollectors.flatMapping(valuesStream, MoreCollectors.head(1)); checkCollector( "flatMappingSubShort", expected, list::stream, Collectors.groupingBy(Entry::getKey, headOne)); checkShortCircuitCollector( "flatMappingShort", expected, 4, list::stream, MoreCollectors.groupingBy(Entry::getKey, StreamEx.of("a", "b", "c").toSet(), headOne)); AtomicInteger cnt = new AtomicInteger(); Collector<Entry<String, List<String>>, ?, List<String>> headPeek = MoreCollectors.flatMapping( valuesStream.andThen(s -> s == null ? null : s.peek(x -> cnt.incrementAndGet())), MoreCollectors.head(1)); assertEquals( expected, StreamEx.of(list).collect(Collectors.groupingBy(Entry::getKey, headPeek))); assertEquals(3, cnt.get()); cnt.set(0); assertEquals( expected, StreamEx.of(list) .collect( MoreCollectors.groupingBy( Entry::getKey, StreamEx.of("a", "b", "c").toSet(), headPeek))); assertEquals(3, cnt.get()); } { Map<String, List<String>> expected = EntryStream.of( "a", Arrays.asList("bb", "cc"), "b", Arrays.asList("ee", "ff"), "c", Arrays.asList("gg")) .toMap(); Collector<Entry<String, List<String>>, ?, List<String>> headTwo = MoreCollectors.flatMapping(valuesStream, MoreCollectors.head(2)); checkCollector( "flatMappingSubShort", expected, list::stream, Collectors.groupingBy(Entry::getKey, headTwo)); AtomicInteger openClose = new AtomicInteger(); boolean catched = false; try { Collector<Entry<String, List<String>>, ?, Map<String, List<String>>> groupingByException = Collectors.groupingBy( Entry::getKey, MoreCollectors.flatMapping( valuesStream.andThen( s -> { if (s == null) return null; openClose.incrementAndGet(); return s.onClose(openClose::decrementAndGet) .peek( e -> { if (e.equals("gg")) throw new IllegalArgumentException(e); }); }), MoreCollectors.head(2))); list.stream() .collect( MoreCollectors.collectingAndThen( groupingByException, res -> { assertEquals(0, openClose.get()); return res; })); } catch (IllegalArgumentException e1) { assertEquals("gg", e1.getMessage()); catched = true; } assertTrue(catched); } }
@Test public void testCountingInt() { checkCollector( "counting", 1000, () -> IntStreamEx.range(1000).boxed(), MoreCollectors.countingInt()); checkCollectorEmpty("counting", 0, MoreCollectors.countingInt()); }
@Test public void testMaxAll() { List<String> input = Arrays.asList("a", "bb", "c", "", "cc", "eee", "bb", "ddd"); checkCollector( "maxAll", Arrays.asList("eee", "ddd"), input::stream, MoreCollectors.maxAll(Comparator.comparingInt(String::length))); Collector<String, ?, String> maxAllJoin = MoreCollectors.maxAll(Comparator.comparingInt(String::length), Collectors.joining(",")); checkCollector("maxAllJoin", "eee,ddd", input::stream, maxAllJoin); checkCollector( "minAll", 1L, input::stream, MoreCollectors.minAll(Comparator.comparingInt(String::length), Collectors.counting())); checkCollector( "minAllEmpty", Arrays.asList(""), input::stream, MoreCollectors.minAll(Comparator.comparingInt(String::length))); checkCollectorEmpty( "maxAll", Collections.emptyList(), MoreCollectors.maxAll(Comparator.comparingInt(String::length))); checkCollectorEmpty("maxAllJoin", "", maxAllJoin); List<Integer> ints = IntStreamEx.of(new Random(1), 10000, 1, 1000).boxed().toList(); List<Integer> expectedMax = getMaxAll(ints, Comparator.naturalOrder()); List<Integer> expectedMin = getMaxAll(ints, Comparator.reverseOrder()); Collector<Integer, ?, SimpleEntry<Integer, Long>> downstream = MoreCollectors.pairing( MoreCollectors.first(), Collectors.counting(), (opt, cnt) -> new AbstractMap.SimpleEntry<>(opt.get(), cnt)); checkCollector("maxAll", expectedMax, ints::stream, MoreCollectors.maxAll(Integer::compare)); checkCollector("minAll", expectedMin, ints::stream, MoreCollectors.minAll()); checkCollector( "entry", new SimpleEntry<>(expectedMax.get(0), (long) expectedMax.size()), ints::stream, MoreCollectors.maxAll(downstream)); checkCollector( "entry", new SimpleEntry<>(expectedMin.get(0), (long) expectedMin.size()), ints::stream, MoreCollectors.minAll(downstream)); Integer a = new Integer(1), b = new Integer(1), c = new Integer(1000), d = new Integer(1000); ints = IntStreamEx.range(10, 100).boxed().append(a, c).prepend(b, d).toList(); for (StreamExSupplier<Integer> supplier : streamEx(ints::stream)) { List<Integer> list = supplier.get().collect(MoreCollectors.maxAll()); assertEquals(2, list.size()); assertSame(d, list.get(0)); assertSame(c, list.get(1)); list = supplier.get().collect(MoreCollectors.minAll()); assertEquals(2, list.size()); assertSame(b, list.get(0)); assertSame(a, list.get(1)); } }