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Quellcode-Bibliothek© Kompilation durch diese Firma[Weder Korrektheit noch Funktionsfähigkeit der Software werden zugesichert.]Datei: ListDefaults.java Sprache: JAVA |
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/*
* Copyright (c) 2012, 2014, Oracle and/or its affiliates. All rights reserved. * DO NOT ALTER OR REMOVE COPYRIGHT NOTICES OR THIS FILE HEADER. * * This code is free software; you can redistribute it and/or modify it * under the terms of the GNU General Public License version 2 only, as * published by the Free Software Foundation. * * This code is distributed in the hope that it will be useful, but WITHOUT * ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or * FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License * version 2 for more details (a copy is included in the LICENSE file that * accompanied this code). * * You should have received a copy of the GNU General Public License version * 2 along with this work; if not, write to the Free Software Foundation, * Inc., 51 Franklin St, Fifth Floor, Boston, MA 02110-1301 USA. * * Please contact Oracle, 500 Oracle Parkway, Redwood Shores, CA 94065 USA * or visit www.oracle.com if you need additional information or have any * questions. */ import java.util.ArrayList; import java.util.Arrays; import java.util.Collection; import java.util.Collections; import java.util.Comparator; import java.util.List; import java.util.LinkedList; import java.util.Stack; import java.util.Vector; import java.util.concurrent.CopyOnWriteArrayList; import java.util.concurrent.atomic.AtomicBoolean; import java.util.concurrent.atomic.AtomicInteger; import org.testng.annotations.DataProvider; import org.testng.annotations.Test; import static org.testng.Assert.assertEquals; import static org.testng.Assert.assertFalse; import static org.testng.Assert.assertTrue; import static org.testng.Assert.fail; import java.util.ConcurrentModificationException; import java.util.function.Consumer; import java.util.function.Function; import java.util.function.Predicate; /** * @test * @summary Unit tests for extension methods on List * @bug 8023367 8037106 * @library ../Collection/testlibrary * @build CollectionAsserts CollectionSupplier ExtendsAbstractList * @run testng ListDefaults */ public class ListDefaults { // Suppliers of lists that can support structural modifications private static final List<Function<Collection, List>> LIST_STRUCT_MOD_SUPPLIERS = Arrays.as java.util.ArrayList::new, java.util.LinkedList::new, java.util.Vector::new, java.util.concurrent.CopyOnWriteArrayList::new, ExtendsAbstractList::new ); // Suppliers of lists that can support in place modifications private static final List<Function<Collection, List>> LIST_SUPPLIERS = Arrays.asList( java.util.ArrayList::new, java.util.LinkedList::new, java.util.Vector::new, java.util.concurrent.CopyOnWriteArrayList::new, ExtendsAbstractList::new, c -> Arrays.asList(c.toArray()) ); // Suppliers of lists supporting CMEs private static final List<Function<Collection, List>> LIST_CME_SUPPLIERS = Arrays.asList( java.util.ArrayList::new, java.util.Vector::new ); private static final Predicate<Integer> pEven = x -> 0 == x % 2; private static final Predicate<Integer> pOdd = x -> 1 == x % 2; private static final Comparator<Integer> BIT_COUNT_COMPARATOR = (x, y) -> Integer.bitCount(x) - Integer.bitCount(y); private static final Comparator<AtomicInteger> ATOMIC_INTEGER_COMPARATOR = (x, y) -> x.intValue() - y.intValue(); private static final int SIZE = 100; private static final int SUBLIST_FROM = 20; private static final int SUBLIST_TO = SIZE - 5; private static final int SUBLIST_SIZE = SUBLIST_TO - SUBLIST_FROM; // call the callback for each recursive subList private void trimmedSubList(final List<Integer> list, final Consumer<List<Integer>> callback) int size = list.size(); if (size > 1) { // trim 1 element from both ends final List<Integer> subList = list.subList(1, size - 1); callback.accept(subList); trimmedSubList(subList, callback); } } @DataProvider(name="listProvider", parallel=true) public static Object[][] listCases() { final List<Object[]> cases = new LinkedList<>(); cases.add(new Object[] { Collections.emptyList() }); cases.add(new Object[] { new ArrayList<>() }); cases.add(new Object[] { new LinkedList<>() }); cases.add(new Object[] { new Vector<>() }); cases.add(new Object[] { new Stack<>() }); cases.add(new Object[] { new CopyOnWriteArrayList<>() }); cases.add(new Object[] { Arrays.asList() }); List<Integer> l = Arrays.asList(42); cases.add(new Object[] { new ArrayList<>(l) }); cases.add(new Object[] { new LinkedList<>(l) }); cases.add(new Object[] { new Vector<>(l) }); Stack<Integer> s = new Stack<>(); s.addAll(l); cases.add(new Object[]{s}); cases.add(new Object[] { new CopyOnWriteArrayList<>(l) }); cases.add(new Object[] { l }); return cases.toArray(new Object[0][cases.size()]); } @Test(dataProvider = "listProvider") public void testProvidedWithNull(final List<Integer> list) { try { list.forEach(null); fail("expected NPE not thrown"); } catch (NullPointerException npe) {} try { list.replaceAll(null); fail("expected NPE not thrown"); } catch (NullPointerException npe) {} try { list.removeIf(null); fail("expected NPE not thrown"); } catch (NullPointerException npe) {} try { list.sort(null); } catch (Throwable t) { fail("Exception not expected: " + t); } } @Test public void testForEach() { @SuppressWarnings("unchecked") final CollectionSupplier<List<Integer>> supplier = new CollectionSupplier(LIST_SUPPLIERS, for (final CollectionSupplier.TestCase<List<Integer>> test : supplier.get()) { final List<Integer> original = test.expected; final List<Integer> list = test.collection; try { list.forEach(null); fail("expected NPE not thrown"); } catch (NullPointerException npe) {} CollectionAsserts.assertContents(list, original); final List<Integer> actual = new LinkedList<>(); list.forEach(actual::add); CollectionAsserts.assertContents(actual, list); CollectionAsserts.assertContents(actual, original); if (original.size() > SUBLIST_SIZE) { final List<Integer> subList = original.subList(SUBLIST_FROM, SUBLIST_TO); final List<Integer> actualSubList = new LinkedList<>(); subList.forEach(actualSubList::add); assertEquals(actualSubList.size(), SUBLIST_SIZE); for (int i = 0; i < SUBLIST_SIZE; i++) { assertEquals(actualSubList.get(i), original.get(i + SUBLIST_FROM)); } } trimmedSubList(list, l -> { final List<Integer> a = new LinkedList<>(); l.forEach(a::add); CollectionAsserts.assertContents(a, l); }); } } @Test public void testRemoveIf() { @SuppressWarnings("unchecked") final CollectionSupplier<List<Integer>> supplier = new CollectionSupplier(LIST_STRUCT_MOD for (final CollectionSupplier.TestCase<List<Integer>> test : supplier.get()) { final List<Integer> original = test.expected; final List<Integer> list = test.collection; try { list.removeIf(null); fail("expected NPE not thrown"); } catch (NullPointerException npe) {} CollectionAsserts.assertContents(list, original); final AtomicInteger offset = new AtomicInteger(1); while (list.size() > 0) { removeFirst(original, list, offset); } } for (final CollectionSupplier.TestCase<List<Integer>> test : supplier.get()) { final List<Integer> original = test.expected; final List<Integer> list = test.collection; list.removeIf(pOdd); for (int i : list) { assertTrue((i % 2) == 0); } for (int i : original) { if (i % 2 == 0) { assertTrue(list.contains(i)); } } list.removeIf(pEven); assertTrue(list.isEmpty()); } for (final CollectionSupplier.TestCase<List<Integer>> test : supplier.get()) { final List<Integer> original = test.expected; final List<Integer> list = test.collection; final List<Integer> listCopy = new ArrayList<>(list); if (original.size() > SUBLIST_SIZE) { final List<Integer> subList = list.subList(SUBLIST_FROM, SUBLIST_TO); final List<Integer> subListCopy = new ArrayList<>(subList); listCopy.removeAll(subList); subList.removeIf(pOdd); for (int i : subList) { assertTrue((i % 2) == 0); } for (int i : subListCopy) { if (i % 2 == 0) { assertTrue(subList.contains(i)); } else { assertFalse(subList.contains(i)); } } subList.removeIf(pEven); assertTrue(subList.isEmpty()); // elements outside the view should remain CollectionAsserts.assertContents(list, listCopy); } } for (final CollectionSupplier.TestCase<List<Integer>> test : supplier.get()) { final List<Integer> list = test.collection; trimmedSubList(list, l -> { final List<Integer> copy = new ArrayList<>(l); l.removeIf(pOdd); for (int i : l) { assertTrue((i % 2) == 0); } for (int i : copy) { if (i % 2 == 0) { assertTrue(l.contains(i)); } else { assertFalse(l.contains(i)); } } }); } } // remove the first element private void removeFirst(final List<Integer> original, final List<Integer> list, final Atomic final AtomicBoolean first = new AtomicBoolean(true); list.removeIf(x -> first.getAndSet(false)); CollectionAsserts.assertContents(original.subList(offset.getAndIncrement(), origi } @Test public void testReplaceAll() { final int scale = 3; @SuppressWarnings("unchecked") final CollectionSupplier<List<Integer>> supplier = new CollectionSupplier(LIST_SUPPLIERS, for (final CollectionSupplier.TestCase<List<Integer>> test : supplier.get()) { final List<Integer> original = test.expected; final List<Integer> list = test.collection; try { list.replaceAll(null); fail("expected NPE not thrown"); } catch (NullPointerException npe) {} CollectionAsserts.assertContents(list, original); list.replaceAll(x -> scale * x); for (int i = 0; i < original.size(); i++) { assertTrue(list.get(i) == (scale * original.get(i)), "mismatch at index " + i); } if (original.size() > SUBLIST_SIZE) { final List<Integer> subList = list.subList(SUBLIST_FROM, SUBLIST_TO); subList.replaceAll(x -> x + 1); // verify elements in view [from, to) were replaced for (int i = 0; i < SUBLIST_SIZE; i++) { assertTrue(subList.get(i) == ((scale * original.get(i + SUBLIST_FROM)) + 1), "mismatch at sublist index " + i); } // verify that elements [0, from) remain unmodified for (int i = 0; i < SUBLIST_FROM; i++) { assertTrue(list.get(i) == (scale * original.get(i)), "mismatch at original index " + i); } // verify that elements [to, size) remain unmodified for (int i = SUBLIST_TO; i < list.size(); i++) { assertTrue(list.get(i) == (scale * original.get(i)), "mismatch at original index " + i); } } } for (final CollectionSupplier.TestCase<List<Integer>> test : supplier.get()) { final List<Integer> list = test.collection; trimmedSubList(list, l -> { final List<Integer> copy = new ArrayList<>(l); final int offset = 5; l.replaceAll(x -> offset + x); for (int i = 0; i < copy.size(); i++) { assertTrue(l.get(i) == (offset + copy.get(i)), "mismatch at index " + i); } }); } } @Test public void testSort() { @SuppressWarnings("unchecked") final CollectionSupplier<List<Integer>> supplier = new CollectionSupplier(LIST_SUPPLIERS, for (final CollectionSupplier.TestCase<List<Integer>> test : supplier.get()) { final List<Integer> original = test.expected; final List<Integer> list = test.collection; CollectionSupplier.shuffle(list); list.sort(Integer::compare); CollectionAsserts.assertSorted(list, Integer::compare); if (test.name.startsWith("reverse")) { Collections.reverse(list); } CollectionAsserts.assertContents(list, original); CollectionSupplier.shuffle(list); list.sort(null); CollectionAsserts.assertSorted(list, Comparator.naturalOrder()); if (test.name.startsWith("reverse")) { Collections.reverse(list); } CollectionAsserts.assertContents(list, original); CollectionSupplier.shuffle(list); list.sort(Comparator.naturalOrder()); CollectionAsserts.assertSorted(list, Comparator.naturalOrder()); if (test.name.startsWith("reverse")) { Collections.reverse(list); } CollectionAsserts.assertContents(list, original); CollectionSupplier.shuffle(list); list.sort(Comparator.reverseOrder()); CollectionAsserts.assertSorted(list, Comparator.reverseOrder()); if (!test.name.startsWith("reverse")) { Collections.reverse(list); } CollectionAsserts.assertContents(list, original); CollectionSupplier.shuffle(list); list.sort(BIT_COUNT_COMPARATOR); CollectionAsserts.assertSorted(list, BIT_COUNT_COMPARATOR); // check sort by verifying that bitCount increases and never drops int minBitCount = 0; for (final Integer i : list) { int bitCount = Integer.bitCount(i); assertTrue(bitCount >= minBitCount); minBitCount = bitCount; } // Reuse the supplier to store AtomicInteger instead of Integer // Hence the use of raw type and cast List<AtomicInteger> incomparablesData = new ArrayList<>(); for (int i = 0; i < test.expected.size(); i++) { incomparablesData.add(new AtomicInteger(i)); } Function f = test.supplier; @SuppressWarnings("unchecked") List<AtomicInteger> incomparables = (List<AtomicInteger>) f.apply(incomparablesData); CollectionSupplier.shuffle(incomparables); incomparables.sort(ATOMIC_INTEGER_COMPARATOR); for (int i = 0; i < test.expected.size(); i++) { assertEquals(i, incomparables.get(i).intValue()); } if (original.size() > SUBLIST_SIZE) { final List<Integer> copy = new ArrayList<>(list); final List<Integer> subList = list.subList(SUBLIST_FROM, SUBLIST_TO); CollectionSupplier.shuffle(subList); subList.sort(Comparator.naturalOrder()); CollectionAsserts.assertSorted(subList, Comparator.naturalOrder()); // verify that elements [0, from) remain unmodified for (int i = 0; i < SUBLIST_FROM; i++) { assertTrue(list.get(i) == copy.get(i), "mismatch at index " + i); } // verify that elements [to, size) remain unmodified for (int i = SUBLIST_TO; i < list.size(); i++) { assertTrue(list.get(i) == copy.get(i), "mismatch at index " + i); } } } for (final CollectionSupplier.TestCase<List<Integer>> test : supplier.get()) { final List<Integer> list = test.collection; trimmedSubList(list, l -> { CollectionSupplier.shuffle(l); l.sort(Comparator.naturalOrder()); CollectionAsserts.assertSorted(l, Comparator.naturalOrder()); }); } } @Test public void testForEachThrowsCME() { @SuppressWarnings("unchecked") final CollectionSupplier<List<Integer>> supplier = new CollectionSupplier(LIST_CME_SUPPLI for (final CollectionSupplier.TestCase<List<Integer>> test : supplier.get()) { final List<Integer> list = test.collection; if (list.size() <= 1) { continue; } boolean gotException = false; try { // bad predicate that modifies its list, should throw CME list.forEach(list::add); } catch (ConcurrentModificationException cme) { gotException = true; } if (!gotException) { fail("expected CME was not thrown from " + test); } } } @Test public void testRemoveIfThrowsCME() { @SuppressWarnings("unchecked") final CollectionSupplier<List<Integer>> supplier = new CollectionSupplier(LIST_CME_SUPPLI for (final CollectionSupplier.TestCase<List<Integer>> test : supplier.get()) { final List<Integer> list = test.collection; if (list.size() <= 1) { continue; } boolean gotException = false; try { // bad predicate that modifies its list, should throw CME list.removeIf(list::add); } catch (ConcurrentModificationException cme) { gotException = true; } if (!gotException) { fail("expected CME was not thrown from " + test); } } } @Test public void testReplaceAllThrowsCME() { @SuppressWarnings("unchecked") final CollectionSupplier<List<Integer>> supplier = new CollectionSupplier(LIST_CME_SUPPLI for (final CollectionSupplier.TestCase<List<Integer>> test : supplier.get()) { final List<Integer> list = test.collection; if (list.size() <= 1) { continue; } boolean gotException = false; try { // bad predicate that modifies its list, should throw CME list.replaceAll(x -> {int n = 3 * x; list.add(n); return n;}); } catch (ConcurrentModificationException cme) { gotException = true; } if (!gotException) { fail("expected CME was not thrown from " + test); } } } @Test public void testSortThrowsCME() { @SuppressWarnings("unchecked") final CollectionSupplier<List<Integer>> supplier = new CollectionSupplier(LIST_CME_SUPPLI for (final CollectionSupplier.TestCase<List<Integer>> test : supplier.get()) { final List<Integer> list = test.collection; if (list.size() <= 1) { continue; } boolean gotException = false; try { // bad predicate that modifies its list, should throw CME list.sort((x, y) -> {list.add(x); return x - y;}); } catch (ConcurrentModificationException cme) { gotException = true; } if (!gotException) { fail("expected CME was not thrown from " + test); } } } private static final List<Integer> SLICED_EXPECTED = Arrays.asList(0, 1, 2, 3, 5, 6, 7, 8, 9); private static final List<Integer> SLICED_EXPECTED2 = Arrays.asList(0, 1, 2, 5, 6, 7, 8, 9); @DataProvider(name="shortIntListProvider", parallel=true) public static Object[][] intListCases() { final Integer[] DATA = {0, 1, 2, 3, 4, 5, 6, 7, 8, 9}; final List<Object[]> cases = new LinkedList<>(); cases.add(new Object[] { new ArrayList<>(Arrays.asList(DATA)) }); cases.add(new Object[] { new LinkedList<>(Arrays.asList(DATA)) }); cases.add(new Object[] { new Vector<>(Arrays.asList(DATA)) }); cases.add(new Object[] { new CopyOnWriteArrayList<>(Arrays.asList(DATA)) }); cases.add(new Object[] { new ExtendsAbstractList<>(Arrays.asList(DATA)) }); return cases.toArray(new Object[0][cases.size()]); } @Test(dataProvider = "shortIntListProvider") public void testRemoveIfFromSlice(final List<Integer> list) { final List<Integer> sublist = list.subList(3, 6); assertTrue(sublist.removeIf(x -> x == 4)); CollectionAsserts.assertContents(list, SLICED_EXPECTED); final List<Integer> sublist2 = list.subList(2, 5); assertTrue(sublist2.removeIf(x -> x == 3)); CollectionAsserts.assertContents(list, SLICED_EXPECTED2); } } ¤ Dauer der Verarbeitung: 0.31 Sekunden (vorverarbeitet) ¤ |
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