/* * Copyright (c) 2020, 2023, 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. */ /** * @test * @summary Unit tests for java.lang.ThreadGroup * @run junit BasicTests */ import java.lang.ref.WeakReference; import java.util.Arrays; import java.util.Objects; import java.util.Set; import java.util.concurrent.locks.LockSupport; import java.util.stream.Collectors; import org.junit.jupiter.api.Test; import static org.junit.jupiter.api.Assertions.*; class BasicTests { @Test void testGetName1() { ThreadGroup group = new ThreadGroup(null); assertTrue(group.getName() == null); } @Test void testGetName2() { ThreadGroup group = new ThreadGroup("fred"); assertEquals("fred", group.getName()); } @Test void testGetParent() { ThreadGroup group1 = new ThreadGroup("group1"); ThreadGroup group2 = new ThreadGroup(group1, "group2"); ThreadGroup group3 = new ThreadGroup(group2, "group3"); assertTrue(group1.getParent() == Thread.currentThread().getThreadGroup()); assertTrue(group2.getParent() == group1); assertTrue(group3.getParent() == group2); } @Test void testParentOf() { ThreadGroup group1 = new ThreadGroup("group1"); ThreadGroup group2 = new ThreadGroup(group1, "group2"); ThreadGroup group3 = new ThreadGroup(group2, "group3"); assertFalse(group1.parentOf(null)); assertTrue(group1.parentOf(group1)); assertTrue(group1.parentOf(group2)); assertTrue(group1.parentOf(group3)); assertFalse(group2.parentOf(null)); assertFalse(group2.parentOf(group1)); assertTrue(group2.parentOf(group2)); assertTrue(group2.parentOf(group3)); assertFalse(group3.parentOf(null)); assertFalse(group3.parentOf(group1)); assertFalse(group3.parentOf(group2)); assertTrue(group3.parentOf(group3)); } @Test void testActiveCount1() { ThreadGroup group = new ThreadGroup("group"); assertTrue(group.activeCount() == 0); TestThread thread = TestThread.start(group, "foo"); try { assertTrue(group.activeCount() == 1); } finally { thread.terminate(); } assertTrue(group.activeCount() == 0); } @Test void testActiveCount2() { ThreadGroup group1 = new ThreadGroup("group1"); ThreadGroup group2 = new ThreadGroup(group1, "group2"); assertTrue(group1.activeCount() == 0); assertTrue(group2.activeCount() == 0); TestThread thread1 = TestThread.start(group1, "foo"); try { assertTrue(group1.activeCount() == 1); assertTrue(group2.activeCount() == 0); TestThread thread2 = TestThread.start(group2, "bar"); try { assertTrue(group1.activeCount() == 2); assertTrue(group2.activeCount() == 1); } finally { thread2.terminate(); } assertTrue(group1.activeCount() == 1); assertTrue(group2.activeCount() == 0); } finally { thread1.terminate(); } assertTrue(group1.activeCount() == 0); assertTrue(group2.activeCount() == 0); } @Test void enumerateThreads1() { ThreadGroup group = new ThreadGroup("group"); Thread[] threads = new Thread[100]; assertTrue(group.enumerate(threads) == 0); assertTrue(threads[0] == null); assertTrue(group.enumerate(threads, true) == 0); assertTrue(threads[0] == null); assertTrue(group.enumerate(threads, false) == 0); assertTrue(threads[0] == null); TestThread thread = TestThread.start(group, "foo"); try { Arrays.setAll(threads, i -> null); assertTrue(group.enumerate(threads) == 1); assertTrue(threads[0] == thread); assertTrue(threads[1] == null); Arrays.setAll(threads, i -> null); assertTrue(group.enumerate(threads, true) == 1); assertTrue(threads[0] == thread); assertTrue(threads[1] == null); Arrays.setAll(threads, i -> null); assertTrue(group.enumerate(threads, false) == 1); assertTrue(threads[0] == thread); assertTrue(threads[1] == null); } finally { thread.terminate(); } assertTrue(group.activeCount() == 0); } @Test void enumerateThreads2() { ThreadGroup group1 = new ThreadGroup("group1"); ThreadGroup group2 = new ThreadGroup(group1, "group2"); Thread[] threads = new Thread[100]; assertTrue(group1.enumerate(threads) == 0); assertTrue(threads[0] == null); assertTrue(group1.enumerate(threads, true) == 0); assertTrue(threads[0] == null); assertTrue(group1.enumerate(threads, false) == 0); assertTrue(threads[0] == null); assertTrue(group2.enumerate(threads) == 0); assertTrue(threads[0] == null); assertTrue(group2.enumerate(threads, true) == 0); assertTrue(threads[0] == null); assertTrue(group2.enumerate(threads, false) == 0); assertTrue(threads[0] == null); TestThread thread1 = TestThread.start(group1, "foo"); try { Arrays.setAll(threads, i -> null); assertTrue(group1.enumerate(threads) == 1); assertTrue(threads[0] == thread1); assertTrue(threads[1] == null); Arrays.setAll(threads, i -> null); assertTrue(group1.enumerate(threads, true) == 1); assertTrue(threads[0] == thread1); assertTrue(threads[1] == null); Arrays.setAll(threads, i -> null); assertTrue(group1.enumerate(threads, false) == 1); assertTrue(threads[0] == thread1); assertTrue(threads[1] == null); Arrays.setAll(threads, i -> null); assertTrue(group2.enumerate(threads) == 0); assertTrue(threads[0] == null); assertTrue(group2.enumerate(threads, true) == 0); assertTrue(threads[0] == null); assertTrue(group2.enumerate(threads, false) == 0); assertTrue(threads[0] == null); TestThread thread2 = TestThread.start(group2, "bar"); try { Arrays.setAll(threads, i -> null); assertTrue(group1.enumerate(threads) == 2); assertEquals(Set.of(thread1, thread2), toSet(threads, 2)); assertTrue(threads[2] == null); Arrays.setAll(threads, i -> null); assertTrue(group1.enumerate(threads, true) == 2); assertEquals(Set.of(thread1, thread2), toSet(threads, 2)); assertTrue(threads[2] == null); Arrays.setAll(threads, i -> null); assertTrue(group1.enumerate(threads, false) == 1); assertTrue(threads[0] == thread1); assertTrue(threads[1] == null); Arrays.setAll(threads, i -> null); assertTrue(group2.enumerate(threads) == 1); assertTrue(threads[0] == thread2); assertTrue(threads[1] == null); Arrays.setAll(threads, i -> null); assertTrue(group2.enumerate(threads, true) == 1); assertTrue(threads[0] == thread2); assertTrue(threads[1] == null); Arrays.setAll(threads, i -> null); assertTrue(group2.enumerate(threads, false) == 1); assertTrue(threads[0] == thread2); assertTrue(threads[1] == null); } finally { thread2.terminate(); } Arrays.setAll(threads, i -> null); assertTrue(group1.enumerate(threads) == 1); assertTrue(threads[0] == thread1); Arrays.setAll(threads, i -> null); assertTrue(group1.enumerate(threads, true) == 1); assertTrue(threads[0] == thread1); Arrays.setAll(threads, i -> null); assertTrue(group1.enumerate(threads, false) == 1); assertTrue(threads[0] == thread1); Arrays.setAll(threads, i -> null); assertTrue(group2.enumerate(threads) == 0); assertTrue(threads[0] == null); assertTrue(group2.enumerate(threads, true) == 0); assertTrue(threads[0] == null); assertTrue(group2.enumerate(threads, false) == 0); assertTrue(threads[0] == null); } finally { thread1.terminate(); } assertTrue(group1.activeCount() == 0); assertTrue(group2.activeCount() == 0); } @Test void enumerateThreads3() { ThreadGroup group1 = new ThreadGroup("group1"); ThreadGroup group2 = new ThreadGroup(group1, "group2"); ThreadGroup group3 = new ThreadGroup(group2, "group3"); Thread[] threads = new Thread[100]; assertTrue(group1.enumerate(threads) == 0); assertTrue(group1.enumerate(threads, true) == 0); assertTrue(group1.enumerate(threads, false) == 0); assertTrue(group2.enumerate(threads) == 0); assertTrue(group2.enumerate(threads, true) == 0); assertTrue(group2.enumerate(threads, false) == 0); assertTrue(group3.enumerate(threads) == 0); assertTrue(group3.enumerate(threads, true) == 0); assertTrue(group3.enumerate(threads, false) == 0); TestThread thread2 = TestThread.start(group2, "foo"); try { Arrays.setAll(threads, i -> null); assertTrue(group1.enumerate(threads) == 1); assertTrue(group1.enumerate(threads, true) == 1); assertTrue(group1.enumerate(threads, false) == 0); Arrays.setAll(threads, i -> null); assertTrue(group2.enumerate(threads) == 1); assertTrue(threads[0] == thread2); Arrays.setAll(threads, i -> null); assertTrue(group2.enumerate(threads, true) == 1); assertTrue(threads[0] == thread2); Arrays.setAll(threads, i -> null); assertTrue(group2.enumerate(threads, false) == 1); assertTrue(threads[0] == thread2); assertTrue(group3.enumerate(threads) == 0); assertTrue(group3.enumerate(threads, true) == 0); assertTrue(group3.enumerate(threads, false) == 0); TestThread thread3 = TestThread.start(group3, "bar"); try { Arrays.setAll(threads, i -> null); assertTrue(group1.enumerate(threads) == 2); assertEquals(Set.of(thread2, thread3), toSet(threads, 2)); Arrays.setAll(threads, i -> null); assertTrue(group1.enumerate(threads, true) == 2); assertEquals(Set.of(thread2, thread3), toSet(threads, 2)); assertTrue(group1.enumerate(threads, false) == 0); Arrays.setAll(threads, i -> null); assertTrue(group2.enumerate(threads) == 2); assertEquals(Set.of(thread2, thread3), toSet(threads, 2)); Arrays.setAll(threads, i -> null); assertTrue(group2.enumerate(threads, true) == 2); assertEquals(Set.of(thread2, thread3), toSet(threads, 2)); Arrays.setAll(threads, i -> null); assertTrue(group2.enumerate(threads, false) == 1); assertTrue(threads[0] == thread2); Arrays.setAll(threads, i -> null); assertTrue(group3.enumerate(threads) == 1); assertTrue(threads[0] == thread3); Arrays.setAll(threads, i -> null); assertTrue(group3.enumerate(threads, true) == 1); assertTrue(threads[0] == thread3); Arrays.setAll(threads, i -> null); assertTrue(group3.enumerate(threads, false) == 1); assertTrue(threads[0] == thread3); } finally { thread3.terminate(); } Arrays.setAll(threads, i -> null); assertTrue(group1.enumerate(threads) == 1); assertTrue(threads[1] == null); Arrays.setAll(threads, i -> null); assertTrue(group1.enumerate(threads, true) == 1); assertTrue(threads[1] == null); Arrays.setAll(threads, i -> null); assertTrue(group1.enumerate(threads, false) == 0); assertTrue(threads[0] == null); Arrays.setAll(threads, i -> null); assertTrue(group2.enumerate(threads) == 1); assertTrue(threads[1] == null); Arrays.setAll(threads, i -> null); assertTrue(group2.enumerate(threads, true) == 1); assertTrue(threads[0] == thread2); assertTrue(threads[1] == null); Arrays.setAll(threads, i -> null); assertTrue(group2.enumerate(threads, false) == 1); assertTrue(threads[0] == thread2); assertTrue(threads[1] == null); Arrays.setAll(threads, i -> null); assertTrue(group3.enumerate(threads) == 0); assertTrue(threads[0] == null); assertTrue(group3.enumerate(threads, true) == 0); assertTrue(threads[0] == null); assertTrue(group3.enumerate(threads, false) == 0); assertTrue(threads[0] == null); } finally { thread2.terminate(); } assertTrue(group1.enumerate(threads) == 0); assertTrue(group1.enumerate(threads, true) == 0); assertTrue(group1.enumerate(threads, false) == 0); assertTrue(group2.enumerate(threads) == 0); assertTrue(group2.enumerate(threads, true) == 0); assertTrue(group2.enumerate(threads, false) == 0); assertTrue(group3.enumerate(threads) == 0); assertTrue(group3.enumerate(threads, true) == 0); assertTrue(group3.enumerate(threads, false) == 0); } /** * Test enumerate(Thread[]) with an array of insufficient size */ @Test void enumerateThreads4() { ThreadGroup group = new ThreadGroup("group"); // array too small Thread[] threads = new Thread[1]; TestThread thread1 = TestThread.start(group, "thread1"); TestThread thread2 = TestThread.start(group, "thread2"); try { Arrays.setAll(threads, i -> null); assertTrue(group.enumerate(threads) == 1); assertTrue(threads[0] == thread1 || threads[1] == thread2); Arrays.setAll(threads, i -> null); assertTrue(group.enumerate(threads, true) == 1); assertTrue(threads[0] == thread1 || threads[1] == thread2); Arrays.setAll(threads, i -> null); assertTrue(group.enumerate(threads, false) == 1); assertTrue(threads[0] == thread1 || threads[1] == thread2); } finally { thread1.terminate(); thread2.terminate(); } } @Test void testActiveGroupCount() throws Exception { ThreadGroup group1 = new ThreadGroup("group1"); assertTrue(group1.activeGroupCount() == 0); ThreadGroup group2 = new ThreadGroup(group1, "group2"); assertTrue(group1.activeGroupCount() == 1); assertTrue(group2.activeGroupCount() == 0); ThreadGroup group3 = new ThreadGroup(group2, "group3"); assertTrue(group1.activeGroupCount() == 2); assertTrue(group2.activeGroupCount() == 1); assertTrue(group3.activeGroupCount() == 0); // unreference group3 and wait for it to be GC'ed var ref = new WeakReference<>(group3); group3 = null; System.gc(); while (ref.get() != null) { Thread.sleep(50); } assertTrue(group1.activeGroupCount() == 1); assertTrue(group2.activeGroupCount() == 0); } @Test void testEnumerateGroups1() throws Exception { ThreadGroup[] groups = new ThreadGroup[100]; ThreadGroup group1 = new ThreadGroup("group1"); assertTrue(group1.enumerate(groups) == 0); assertTrue(groups[0] == null); assertTrue(group1.enumerate(groups, true) == 0); assertTrue(groups[0] == null); assertTrue(group1.enumerate(groups, false) == 0); assertTrue(groups[0] == null); ThreadGroup group2 = new ThreadGroup(group1, "group2"); Arrays.setAll(groups, i -> null); assertTrue(group1.enumerate(groups) == 1); assertTrue(groups[0] == group2); assertTrue(groups[1] == null); Arrays.setAll(groups, i -> null); assertTrue(group1.enumerate(groups, true) == 1); assertTrue(groups[0] == group2); assertTrue(groups[1] == null); Arrays.setAll(groups, i -> null); assertTrue(group1.enumerate(groups, false) == 1); assertTrue(groups[0] == group2); assertTrue(groups[1] == null); ThreadGroup group3 = new ThreadGroup(group2, "group3"); Arrays.setAll(groups, i -> null); assertTrue(group1.enumerate(groups) == 2); assertEquals(Set.of(group2, group3), toSet(groups, 2)); assertTrue(groups[2] == null); Arrays.setAll(groups, i -> null); assertTrue(group1.enumerate(groups, true) == 2); assertEquals(Set.of(group2, group3), toSet(groups, 2)); assertTrue(groups[2] == null); Arrays.setAll(groups, i -> null); assertTrue(group1.enumerate(groups, false) == 1); assertTrue(groups[0] == group2); assertTrue(groups[1] == null); Arrays.setAll(groups, i -> null); assertTrue(group2.enumerate(groups) == 1); assertTrue(groups[0] == group3); assertTrue(groups[1] == null); Arrays.setAll(groups, i -> null); assertTrue(group2.enumerate(groups, true) == 1); assertTrue(groups[0] == group3); assertTrue(groups[1] == null); Arrays.setAll(groups, i -> null); assertTrue(group2.enumerate(groups, false) == 1); assertTrue(groups[0] == group3); assertTrue(groups[1] == null); Arrays.setAll(groups, i -> null); assertTrue(group3.enumerate(groups) == 0); assertTrue(groups[0] == null); Arrays.setAll(groups, i -> null); assertTrue(group3.enumerate(groups, true) == 0); assertTrue(groups[0] == null); Arrays.setAll(groups, i -> null); assertTrue(group3.enumerate(groups, false) == 0); assertTrue(groups[0] == null); // unreference group3 and wait for it to be GC'ed var ref = new WeakReference<>(group3); Arrays.setAll(groups, i -> null); group3 = null; System.gc(); while (ref.get() != null) { Thread.sleep(50); } Arrays.setAll(groups, i -> null); assertTrue(group1.enumerate(groups) == 1); assertTrue(groups[0] == group2); assertTrue(groups[1] == null); Arrays.setAll(groups, i -> null); assertTrue(group1.enumerate(groups, true) == 1); assertTrue(groups[0] == group2); assertTrue(groups[1] == null); Arrays.setAll(groups, i -> null); assertTrue(group1.enumerate(groups, false) == 1); assertTrue(groups[0] == group2); assertTrue(groups[1] == null); } /** * Test enumerate(ThreadGroup[]) with an array of insufficient size */ @Test void testEnumerateGroups2() throws Exception { ThreadGroup group = new ThreadGroup("group"); ThreadGroup child1 = new ThreadGroup(group, "child1"); ThreadGroup child2 = new ThreadGroup(group,"child2"); // array too small ThreadGroup[] groups = new ThreadGroup[1]; Arrays.setAll(groups, i -> null); assertTrue(group.enumerate(groups) == 1); assertTrue(groups[0] == child1 || groups[1] == child2); Arrays.setAll(groups, i -> null); assertTrue(group.enumerate(groups, true) == 1); assertTrue(groups[0] == child1 || groups[1] == child2); Arrays.setAll(groups, i -> null); assertTrue(group.enumerate(groups, false) == 1); assertTrue(groups[0] == child1 || groups[1] == child2); } @Test void testMaxPriority1() { ThreadGroup group = new ThreadGroup("group"); final int maxPriority = group.getMaxPriority(); assertTrue(maxPriority == Thread.currentThread().getThreadGroup().getMaxPriority()); group.setMaxPriority(Thread.MIN_PRIORITY-1); assertTrue(group.getMaxPriority() == maxPriority); group.setMaxPriority(Thread.MAX_PRIORITY+1); assertTrue(group.getMaxPriority() == maxPriority); group.setMaxPriority(maxPriority+1); assertTrue(group.getMaxPriority() == maxPriority); if (maxPriority > Thread.MIN_PRIORITY) { group.setMaxPriority(maxPriority-1); assertTrue(group.getMaxPriority() == (maxPriority-1)); } group.setMaxPriority(maxPriority); assertTrue(group.getMaxPriority() == maxPriority); } @Test void testMaxPriority2() { ThreadGroup group1 = new ThreadGroup("group1"); int maxPriority = group1.getMaxPriority(); if (maxPriority > Thread.MIN_PRIORITY) { ThreadGroup group2 = new ThreadGroup(group1, "group2"); assertTrue(group2.getMaxPriority() == maxPriority); ThreadGroup group3 = new ThreadGroup(group2, "group3"); assertTrue(group3.getMaxPriority() == maxPriority); group1.setMaxPriority(Thread.MIN_PRIORITY); assertTrue(group1.getMaxPriority() == Thread.MIN_PRIORITY); assertTrue(group2.getMaxPriority() == Thread.MIN_PRIORITY); assertTrue(group3.getMaxPriority() == Thread.MIN_PRIORITY); group1.setMaxPriority(maxPriority); assertTrue(group1.getMaxPriority() == maxPriority); assertTrue(group2.getMaxPriority() == maxPriority); assertTrue(group3.getMaxPriority() == maxPriority); group2.setMaxPriority(Thread.MIN_PRIORITY); assertTrue(group1.getMaxPriority() == maxPriority); assertTrue(group2.getMaxPriority() == Thread.MIN_PRIORITY); assertTrue(group3.getMaxPriority() == Thread.MIN_PRIORITY); group2.setMaxPriority(maxPriority); assertTrue(group1.getMaxPriority() == maxPriority); assertTrue(group2.getMaxPriority() == maxPriority); assertTrue(group3.getMaxPriority() == maxPriority); group3.setMaxPriority(Thread.MIN_PRIORITY); assertTrue(group1.getMaxPriority() == maxPriority); assertTrue(group2.getMaxPriority() == maxPriority); assertTrue(group3.getMaxPriority() == Thread.MIN_PRIORITY); } } @Test void testMaxPriority3() { ThreadGroup group = new ThreadGroup("group"); if (group.getMaxPriority() > Thread.MIN_PRIORITY) { int maxPriority = Thread.MIN_PRIORITY + 1; group.setMaxPriority(maxPriority); assertTrue(group.getMaxPriority() == maxPriority); Thread thread = new Thread(group, () -> { }); int priority = thread.getPriority(); int expectedPriority = Math.min(Thread.currentThread().getPriority(), maxPriority); assertTrue(priority == expectedPriority); thread.setPriority(Thread.MAX_PRIORITY); assertTrue(thread.getPriority() == maxPriority); thread.setPriority(maxPriority); assertTrue(thread.getPriority() == maxPriority); thread.setPriority(Thread.MIN_PRIORITY); assertTrue(thread.getPriority() == Thread.MIN_PRIORITY); } } @Test void testInterrupt1() { ThreadGroup group = new ThreadGroup("group"); assertTrue(group.activeCount() == 0); TestThread thread = TestThread.start(group, "foo"); try { group.interrupt(); } finally { thread.terminate(); } assertTrue(thread.wasInterrupted()); } @Test void testInterrupt2() { ThreadGroup group1 = new ThreadGroup("group1"); ThreadGroup group2 = new ThreadGroup(group1, "group2"); TestThread thread1 = TestThread.start(group1, "foo"); TestThread thread2 = TestThread.start(group2, "bar"); try { group1.interrupt(); } finally { thread1.terminate(); thread2.terminate(); } assertTrue(thread2.wasInterrupted()); assertTrue(thread1.wasInterrupted()); } @Test void testInterrupt3() { ThreadGroup group1 = new ThreadGroup("group1"); ThreadGroup group2 = new ThreadGroup(group1, "group2"); TestThread thread1 = TestThread.start(group1, "foo"); TestThread thread2 = TestThread.start(group2, "bar"); try { group2.interrupt(); } finally { thread1.terminate(); thread2.terminate(); } assertTrue(thread2.wasInterrupted()); assertFalse(thread1.wasInterrupted()); } @Test void testDestroy() { ThreadGroup group = new ThreadGroup("group"); assertFalse(group.isDestroyed()); group.destroy(); // does nothing assertFalse(group.isDestroyed()); } @Test void testDaemon() { boolean d = Thread.currentThread().getThreadGroup().isDaemon(); ThreadGroup group1 = new ThreadGroup("group1"); assertTrue(group1.isDaemon() == d); // inherit group1.setDaemon(true); assertTrue(group1.isDaemon()); ThreadGroup group2 = new ThreadGroup(group1, "group2"); assertTrue(group2.isDaemon()); // inherit group1.setDaemon(false); assertFalse(group1.isDaemon()); ThreadGroup group3 = new ThreadGroup(group1, "group2"); assertFalse(group3.isDaemon()); // inherit } @Test void testList() { ThreadGroup group = new ThreadGroup("foo"); group.list(); } @Test void testSuspend() { ThreadGroup group = new ThreadGroup("foo"); assertThrows(UnsupportedOperationException.class, () -> group.suspend()); } @Test void testResume() { ThreadGroup group = new ThreadGroup("foo"); assertThrows(UnsupportedOperationException.class, () -> group.resume()); } @Test void testStop() { ThreadGroup group = new ThreadGroup("foo"); assertThrows(UnsupportedOperationException.class, () -> group.stop()); } @Test void testNull1() { assertThrows(NullPointerException.class, () -> new ThreadGroup(null, "group")); } @Test void testNull2() { ThreadGroup group = new ThreadGroup("group"); assertThrows(NullPointerException.class, () -> group.enumerate((Thread[]) null)); } @Test void testNull3() { ThreadGroup group = new ThreadGroup("group"); assertThrows(NullPointerException.class, () -> group.enumerate((Thread[]) null, false)); } @Test void testNull4() { ThreadGroup group = new ThreadGroup("group"); assertThrows(NullPointerException.class, () -> group.enumerate((ThreadGroup[]) null)); } @Test void testNull5() { ThreadGroup group = new ThreadGroup("group"); assertThrows(NullPointerException.class, () -> group.enumerate((ThreadGroup[]) null, false)); } private static Set toSet(T[] array, int len) { return Arrays.stream(array, 0, len).collect(Collectors.toSet()); } private static class TestThread extends Thread { TestThread(ThreadGroup group, String name) { super(group, name); } static TestThread start(ThreadGroup group, String name) { TestThread thread = new TestThread(group, name); thread.start(); return thread; } private volatile boolean done; private volatile boolean interrupted; @Override public void run() { if (Thread.currentThread() != this) throw new IllegalCallerException(); while (!done) { LockSupport.park(); if (Thread.interrupted()) { interrupted = true; } } if (Thread.interrupted()) { interrupted = true; } } boolean wasInterrupted() { return interrupted; } void terminate() { done = true; LockSupport.unpark(this); boolean interrupted = false; while (isAlive()) { try { Thread.sleep(10); } catch (InterruptedException e) { interrupted = true; } } if (interrupted) { Thread.currentThread().interrupt(); } } } }