/* * Licensed to the Apache Software Foundation (ASF) under one * or more contributor license agreements. See the NOTICE file * distributed with this work for additional information * regarding copyright ownership. The ASF licenses this file * to you under the Apache License, Version 2.0 (the * "License"); you may not use this file except in compliance * with the License. You may obtain a copy of the License at * * http://www.apache.org/licenses/LICENSE-2.0 * * Unless required by applicable law or agreed to in writing, * software distributed under the License is distributed on an * "AS IS" BASIS, WITHOUT WARRANTIES OR CONDITIONS OF ANY * KIND, either express or implied. See the License for the * specific language governing permissions and limitations * under the License. */ package org.apache.commons.lang3; import static org.junit.jupiter.api.Assertions.assertEquals; import static org.junit.jupiter.api.Assertions.assertFalse; import static org.junit.jupiter.api.Assertions.assertNull; import static org.junit.jupiter.api.Assertions.assertThrows; import static org.junit.jupiter.api.Assertions.assertTrue; import java.util.ArrayList; import java.util.Arrays; import java.util.EnumSet; import java.util.List; import java.util.Map; import java.util.function.Function; import org.junit.jupiter.api.Assertions; import org.junit.jupiter.api.Test; enum Enum64 { A00, A01, A02, A03, A04, A05, A06, A07, A08, A09, A10, A11, A12, A13, A14, A15, A16, A17, A18, A19, A20, A21, A22, A23, A24, A25, A26, A27, A28, A29, A30, A31, A32, A33, A34, A35, A36, A37, A38, A39, A40, A41, A42, A43, A44, A45, A46, A47, A48, A49, A50, A51, A52, A53, A54, A55, A56, A57, A58, A59, A60, A61, A62, A63 } /** * */ public class EnumUtilsTest extends AbstractLangTest { private void assertArrayEquals(final long[] actual, final long... expected) { Assertions.assertArrayEquals(expected, actual); } @Test public void test_generateBitVector() { assertEquals(0L, EnumUtils.generateBitVector(Traffic.class, EnumSet.noneOf(Traffic.class))); assertEquals(1L, EnumUtils.generateBitVector(Traffic.class, EnumSet.of(Traffic.RED))); assertEquals(2L, EnumUtils.generateBitVector(Traffic.class, EnumSet.of(Traffic.AMBER))); assertEquals(4L, EnumUtils.generateBitVector(Traffic.class, EnumSet.of(Traffic.GREEN))); assertEquals(3L, EnumUtils.generateBitVector(Traffic.class, EnumSet.of(Traffic.RED, Traffic.AMBER))); assertEquals(5L, EnumUtils.generateBitVector(Traffic.class, EnumSet.of(Traffic.RED, Traffic.GREEN))); assertEquals(6L, EnumUtils.generateBitVector(Traffic.class, EnumSet.of(Traffic.AMBER, Traffic.GREEN))); assertEquals(7L, EnumUtils.generateBitVector(Traffic.class, EnumSet.of(Traffic.RED, Traffic.AMBER, Traffic.GREEN))); // 64 values Enum (to test whether no int<->long jdk conversion issue exists) assertEquals((1L << 31), EnumUtils.generateBitVector(Enum64.class, EnumSet.of(Enum64.A31))); assertEquals((1L << 32), EnumUtils.generateBitVector(Enum64.class, EnumSet.of(Enum64.A32))); assertEquals((1L << 63), EnumUtils.generateBitVector(Enum64.class, EnumSet.of(Enum64.A63))); assertEquals(Long.MIN_VALUE, EnumUtils.generateBitVector(Enum64.class, EnumSet.of(Enum64.A63))); } @Test public void test_generateBitVector_longClass() { assertThrows(IllegalArgumentException.class, () -> EnumUtils.generateBitVector(TooMany.class, EnumSet.of(TooMany.A1))); } @Test public void test_generateBitVector_longClassWithArray() { assertThrows(IllegalArgumentException.class, () -> EnumUtils.generateBitVector(TooMany.class, TooMany.A1)); } @SuppressWarnings("unchecked") @Test public void test_generateBitVector_nonEnumClass() { @SuppressWarnings("rawtypes") final Class rawType = Object.class; @SuppressWarnings("rawtypes") final List rawList = new ArrayList(); assertThrows(IllegalArgumentException.class, () -> EnumUtils.generateBitVector(rawType, rawList)); } @SuppressWarnings("unchecked") @Test public void test_generateBitVector_nonEnumClassWithArray() { @SuppressWarnings("rawtypes") final Class rawType = Object.class; assertThrows(IllegalArgumentException.class, () -> EnumUtils.generateBitVector(rawType)); } @Test public void test_generateBitVector_nullArray() { assertThrows(NullPointerException.class, () -> EnumUtils.generateBitVector(Traffic.class, (Traffic[]) null)); } @Test public void test_generateBitVector_nullArrayElement() { assertThrows(IllegalArgumentException.class, () -> EnumUtils.generateBitVector(Traffic.class, Traffic.RED, null)); } @Test public void test_generateBitVector_nullClass() { assertThrows(NullPointerException.class, () -> EnumUtils.generateBitVector(null, EnumSet.of(Traffic.RED))); } @Test public void test_generateBitVector_nullClassWithArray() { assertThrows(NullPointerException.class, () -> EnumUtils.generateBitVector(null, Traffic.RED)); } @Test public void test_generateBitVector_nullElement() { assertThrows(NullPointerException.class, () -> EnumUtils.generateBitVector(Traffic.class, Arrays.asList(Traffic.RED, null))); } @Test public void test_generateBitVector_nullIterable() { assertThrows(NullPointerException.class, () -> EnumUtils.generateBitVector(Traffic.class, (Iterable) null)); } @Test public void test_generateBitVectorFromArray() { assertEquals(0L, EnumUtils.generateBitVector(Traffic.class)); assertEquals(1L, EnumUtils.generateBitVector(Traffic.class, Traffic.RED)); assertEquals(2L, EnumUtils.generateBitVector(Traffic.class, Traffic.AMBER)); assertEquals(4L, EnumUtils.generateBitVector(Traffic.class, Traffic.GREEN)); assertEquals(3L, EnumUtils.generateBitVector(Traffic.class, Traffic.RED, Traffic.AMBER)); assertEquals(5L, EnumUtils.generateBitVector(Traffic.class, Traffic.RED, Traffic.GREEN)); assertEquals(6L, EnumUtils.generateBitVector(Traffic.class, Traffic.AMBER, Traffic.GREEN)); assertEquals(7L, EnumUtils.generateBitVector(Traffic.class, Traffic.RED, Traffic.AMBER, Traffic.GREEN)); // gracefully handles duplicates: assertEquals(7L, EnumUtils.generateBitVector(Traffic.class, Traffic.RED, Traffic.AMBER, Traffic.GREEN, Traffic.GREEN)); // 64 values Enum (to test whether no int<->long jdk conversion issue exists) assertEquals((1L << 31), EnumUtils.generateBitVector(Enum64.class, Enum64.A31)); assertEquals((1L << 32), EnumUtils.generateBitVector(Enum64.class, Enum64.A32)); assertEquals((1L << 63), EnumUtils.generateBitVector(Enum64.class, Enum64.A63)); assertEquals(Long.MIN_VALUE, EnumUtils.generateBitVector(Enum64.class, Enum64.A63)); } @Test public void test_generateBitVectors() { assertArrayEquals(EnumUtils.generateBitVectors(Traffic.class, EnumSet.noneOf(Traffic.class)), 0L); assertArrayEquals(EnumUtils.generateBitVectors(Traffic.class, EnumSet.of(Traffic.RED)), 1L); assertArrayEquals(EnumUtils.generateBitVectors(Traffic.class, EnumSet.of(Traffic.AMBER)), 2L); assertArrayEquals(EnumUtils.generateBitVectors(Traffic.class, EnumSet.of(Traffic.GREEN)), 4L); assertArrayEquals(EnumUtils.generateBitVectors(Traffic.class, EnumSet.of(Traffic.RED, Traffic.AMBER)), 3L); assertArrayEquals(EnumUtils.generateBitVectors(Traffic.class, EnumSet.of(Traffic.RED, Traffic.GREEN)), 5L); assertArrayEquals(EnumUtils.generateBitVectors(Traffic.class, EnumSet.of(Traffic.AMBER, Traffic.GREEN)), 6L); assertArrayEquals( EnumUtils.generateBitVectors(Traffic.class, EnumSet.of(Traffic.RED, Traffic.AMBER, Traffic.GREEN)), 7L); // 64 values Enum (to test whether no int<->long jdk conversion issue exists) assertArrayEquals(EnumUtils.generateBitVectors(Enum64.class, EnumSet.of(Enum64.A31)), (1L << 31)); assertArrayEquals(EnumUtils.generateBitVectors(Enum64.class, EnumSet.of(Enum64.A32)), (1L << 32)); assertArrayEquals(EnumUtils.generateBitVectors(Enum64.class, EnumSet.of(Enum64.A63)), (1L << 63)); assertArrayEquals(EnumUtils.generateBitVectors(Enum64.class, EnumSet.of(Enum64.A63)), Long.MIN_VALUE); // More than 64 values Enum assertArrayEquals(EnumUtils.generateBitVectors(TooMany.class, EnumSet.of(TooMany.M2)), 1L, 0L); assertArrayEquals(EnumUtils.generateBitVectors(TooMany.class, EnumSet.of(TooMany.L2, TooMany.M2)), 1L, (1L << 63)); } @SuppressWarnings("unchecked") @Test public void test_generateBitVectors_nonEnumClass() { @SuppressWarnings("rawtypes") final Class rawType = Object.class; @SuppressWarnings("rawtypes") final List rawList = new ArrayList(); assertThrows(IllegalArgumentException.class, () -> EnumUtils.generateBitVectors(rawType, rawList)); } @SuppressWarnings("unchecked") @Test public void test_generateBitVectors_nonEnumClassWithArray() { @SuppressWarnings("rawtypes") final Class rawType = Object.class; assertThrows(IllegalArgumentException.class, () -> EnumUtils.generateBitVectors(rawType)); } @Test public void test_generateBitVectors_nullArray() { assertThrows(NullPointerException.class, () -> EnumUtils.generateBitVectors(Traffic.class, (Traffic[]) null)); } @Test public void test_generateBitVectors_nullArrayElement() { assertThrows(IllegalArgumentException.class, () -> EnumUtils.generateBitVectors(Traffic.class, Traffic.RED, null)); } @Test public void test_generateBitVectors_nullClass() { assertThrows(NullPointerException.class, () -> EnumUtils.generateBitVectors(null, EnumSet.of(Traffic.RED))); } @Test public void test_generateBitVectors_nullClassWithArray() { assertThrows(NullPointerException.class, () -> EnumUtils.generateBitVectors(null, Traffic.RED)); } @Test public void test_generateBitVectors_nullElement() { assertThrows(NullPointerException.class, () -> EnumUtils.generateBitVectors(Traffic.class, Arrays.asList(Traffic.RED, null))); } @Test public void test_generateBitVectors_nullIterable() { assertThrows(NullPointerException.class, () -> EnumUtils.generateBitVectors(null, (Iterable) null)); } @Test public void test_generateBitVectorsFromArray() { assertArrayEquals(EnumUtils.generateBitVectors(Traffic.class), 0L); assertArrayEquals(EnumUtils.generateBitVectors(Traffic.class, Traffic.RED), 1L); assertArrayEquals(EnumUtils.generateBitVectors(Traffic.class, Traffic.AMBER), 2L); assertArrayEquals(EnumUtils.generateBitVectors(Traffic.class, Traffic.GREEN), 4L); assertArrayEquals(EnumUtils.generateBitVectors(Traffic.class, Traffic.RED, Traffic.AMBER), 3L); assertArrayEquals(EnumUtils.generateBitVectors(Traffic.class, Traffic.RED, Traffic.GREEN), 5L); assertArrayEquals(EnumUtils.generateBitVectors(Traffic.class, Traffic.AMBER, Traffic.GREEN), 6L); assertArrayEquals(EnumUtils.generateBitVectors(Traffic.class, Traffic.RED, Traffic.AMBER, Traffic.GREEN), 7L); // gracefully handles duplicates: assertArrayEquals( EnumUtils.generateBitVectors(Traffic.class, Traffic.RED, Traffic.AMBER, Traffic.GREEN, Traffic.GREEN), 7L); // 64 values Enum (to test whether no int<->long jdk conversion issue exists) assertArrayEquals(EnumUtils.generateBitVectors(Enum64.class, Enum64.A31), (1L << 31)); assertArrayEquals(EnumUtils.generateBitVectors(Enum64.class, Enum64.A32), (1L << 32)); assertArrayEquals(EnumUtils.generateBitVectors(Enum64.class, Enum64.A63), (1L << 63)); assertArrayEquals(EnumUtils.generateBitVectors(Enum64.class, Enum64.A63), Long.MIN_VALUE); // More than 64 values Enum assertArrayEquals(EnumUtils.generateBitVectors(TooMany.class, TooMany.M2), 1L, 0L); assertArrayEquals(EnumUtils.generateBitVectors(TooMany.class, TooMany.L2, TooMany.M2), 1L, (1L << 63)); } @Test public void test_getEnum() { assertEquals(Traffic.RED, EnumUtils.getEnum(Traffic.class, "RED")); assertEquals(Traffic.AMBER, EnumUtils.getEnum(Traffic.class, "AMBER")); assertEquals(Traffic.GREEN, EnumUtils.getEnum(Traffic.class, "GREEN")); assertNull(EnumUtils.getEnum(Traffic.class, "PURPLE")); assertNull(EnumUtils.getEnum(Traffic.class, null)); } @Test public void test_getEnum_defaultEnum() { assertEquals(Traffic.RED, EnumUtils.getEnum(Traffic.class, "RED", Traffic.AMBER)); assertEquals(Traffic.AMBER, EnumUtils.getEnum(Traffic.class, "AMBER", Traffic.GREEN)); assertEquals(Traffic.GREEN, EnumUtils.getEnum(Traffic.class, "GREEN", Traffic.RED)); assertEquals(Traffic.AMBER, EnumUtils.getEnum(Traffic.class, "PURPLE", Traffic.AMBER)); assertEquals(Traffic.GREEN, EnumUtils.getEnum(Traffic.class, "PURPLE", Traffic.GREEN)); assertEquals(Traffic.RED, EnumUtils.getEnum(Traffic.class, "PURPLE", Traffic.RED)); assertEquals(Traffic.AMBER, EnumUtils.getEnum(Traffic.class, null, Traffic.AMBER)); assertEquals(Traffic.GREEN, EnumUtils.getEnum(Traffic.class, null, Traffic.GREEN)); assertEquals(Traffic.RED, EnumUtils.getEnum(Traffic.class, null, Traffic.RED)); assertNull(EnumUtils.getEnum(Traffic.class, "PURPLE", null)); } /** * Tests raw type. */ @SuppressWarnings("unchecked") @Test public void test_getEnum_nonEnumClass() { @SuppressWarnings("rawtypes") final Class rawType = Object.class; assertNull(EnumUtils.getEnum(rawType, "rawType")); } @Test public void test_getEnum_nullClass() { assertThrows(NullPointerException.class, () -> EnumUtils.getEnum((Class) null, "PURPLE")); } @Test public void test_getEnumIgnoreCase() { assertEquals(Traffic.RED, EnumUtils.getEnumIgnoreCase(Traffic.class, "red")); assertEquals(Traffic.AMBER, EnumUtils.getEnumIgnoreCase(Traffic.class, "Amber")); assertEquals(Traffic.GREEN, EnumUtils.getEnumIgnoreCase(Traffic.class, "grEEn")); assertNull(EnumUtils.getEnumIgnoreCase(Traffic.class, "purple")); assertNull(EnumUtils.getEnumIgnoreCase(Traffic.class, null)); } @Test public void test_getEnumIgnoreCase_defaultEnum() { assertEquals(Traffic.RED, EnumUtils.getEnumIgnoreCase(Traffic.class, "red", Traffic.AMBER)); assertEquals(Traffic.AMBER, EnumUtils.getEnumIgnoreCase(Traffic.class, "Amber", Traffic.GREEN)); assertEquals(Traffic.GREEN, EnumUtils.getEnumIgnoreCase(Traffic.class, "grEEn", Traffic.RED)); assertEquals(Traffic.AMBER, EnumUtils.getEnumIgnoreCase(Traffic.class, "PURPLE", Traffic.AMBER)); assertEquals(Traffic.GREEN, EnumUtils.getEnumIgnoreCase(Traffic.class, "purple", Traffic.GREEN)); assertEquals(Traffic.RED, EnumUtils.getEnumIgnoreCase(Traffic.class, "pUrPlE", Traffic.RED)); assertEquals(Traffic.AMBER, EnumUtils.getEnumIgnoreCase(Traffic.class, null, Traffic.AMBER)); assertEquals(Traffic.GREEN, EnumUtils.getEnumIgnoreCase(Traffic.class, null, Traffic.GREEN)); assertEquals(Traffic.RED, EnumUtils.getEnumIgnoreCase(Traffic.class, null, Traffic.RED)); assertNull(EnumUtils.getEnumIgnoreCase(Traffic.class, "PURPLE", null)); } /** * Tests raw type. */ @SuppressWarnings("unchecked") @Test public void test_getEnumIgnoreCase_nonEnumClass() { @SuppressWarnings("rawtypes") final Class rawType = Object.class; assertNull(EnumUtils.getEnumIgnoreCase(rawType, "rawType")); } @Test public void test_getEnumIgnoreCase_nullClass() { assertThrows(NullPointerException.class, () -> EnumUtils.getEnumIgnoreCase((Class) null, "PURPLE")); } @Test public void test_getEnumList() { final List test = EnumUtils.getEnumList(Traffic.class); assertEquals(3, test.size()); assertEquals(Traffic.RED, test.get(0)); assertEquals(Traffic.AMBER, test.get(1)); assertEquals(Traffic.GREEN, test.get(2)); } @Test public void test_getEnumMap() { final Map test = EnumUtils.getEnumMap(Traffic.class); assertEquals("{RED=RED, AMBER=AMBER, GREEN=GREEN}", test.toString(), "getEnumMap not created correctly"); assertEquals(3, test.size()); assertTrue(test.containsKey("RED")); assertEquals(Traffic.RED, test.get("RED")); assertTrue(test.containsKey("AMBER")); assertEquals(Traffic.AMBER, test.get("AMBER")); assertTrue(test.containsKey("GREEN")); assertEquals(Traffic.GREEN, test.get("GREEN")); assertFalse(test.containsKey("PURPLE")); } @Test public void test_getEnumMap_keyFunction() { final Map test = EnumUtils.getEnumMap(Month.class, Month::getId); assertEquals("{1=JAN, 2=FEB, 3=MAR, 4=APR, 5=MAY, 6=JUN, 7=JUL, 8=AUG, 9=SEP, 10=OCT, 11=NOV, 12=DEC}", test.toString(), "getEnumMap not created correctly"); assertEquals(12, test.size()); assertFalse(test.containsKey(0)); assertTrue(test.containsKey(1)); assertEquals(Month.JAN, test.get(1)); assertTrue(test.containsKey(2)); assertEquals(Month.FEB, test.get(2)); assertTrue(test.containsKey(3)); assertEquals(Month.MAR, test.get(3)); assertTrue(test.containsKey(4)); assertEquals(Month.APR, test.get(4)); assertTrue(test.containsKey(5)); assertEquals(Month.MAY, test.get(5)); assertTrue(test.containsKey(6)); assertEquals(Month.JUN, test.get(6)); assertTrue(test.containsKey(7)); assertEquals(Month.JUL, test.get(7)); assertTrue(test.containsKey(8)); assertEquals(Month.AUG, test.get(8)); assertTrue(test.containsKey(9)); assertEquals(Month.SEP, test.get(9)); assertTrue(test.containsKey(10)); assertEquals(Month.OCT, test.get(10)); assertTrue(test.containsKey(11)); assertEquals(Month.NOV, test.get(11)); assertTrue(test.containsKey(12)); assertEquals(Month.DEC, test.get(12)); assertFalse(test.containsKey(13)); } @Test public void test_getEnumSystemProperty() { final String key = getClass().getName(); System.setProperty(key, Traffic.RED.toString()); try { assertEquals(Traffic.RED, EnumUtils.getEnumSystemProperty(Traffic.class, key, null)); assertEquals(Traffic.RED, EnumUtils.getEnumSystemProperty(Traffic.class, "?", Traffic.RED)); assertEquals(Traffic.RED, EnumUtils.getEnumSystemProperty(null, null, Traffic.RED)); assertEquals(Traffic.RED, EnumUtils.getEnumSystemProperty(null, "?", Traffic.RED)); assertEquals(Traffic.RED, EnumUtils.getEnumSystemProperty(Traffic.class, null, Traffic.RED)); } finally { System.getProperties().remove(key); } } @Test public void test_getFirstEnumIgnoreCase_defaultEnum() { final Function f = Traffic2::getLabel; assertEquals(Traffic2.RED, EnumUtils.getFirstEnumIgnoreCase(Traffic2.class, "***red***", f, Traffic2.AMBER)); assertEquals(Traffic2.AMBER, EnumUtils.getFirstEnumIgnoreCase(Traffic2.class, "**Amber**", f, Traffic2.GREEN)); assertEquals(Traffic2.GREEN, EnumUtils.getFirstEnumIgnoreCase(Traffic2.class, "*grEEn*", f, Traffic2.RED)); assertEquals(Traffic2.AMBER, EnumUtils.getFirstEnumIgnoreCase(Traffic2.class, "PURPLE", f, Traffic2.AMBER)); assertEquals(Traffic2.GREEN, EnumUtils.getFirstEnumIgnoreCase(Traffic2.class, "purple", f, Traffic2.GREEN)); assertEquals(Traffic2.RED, EnumUtils.getFirstEnumIgnoreCase(Traffic2.class, "pUrPlE", f, Traffic2.RED)); assertEquals(Traffic2.AMBER, EnumUtils.getFirstEnumIgnoreCase(Traffic2.class, null, f, Traffic2.AMBER)); assertEquals(Traffic2.GREEN, EnumUtils.getFirstEnumIgnoreCase(Traffic2.class, null, f, Traffic2.GREEN)); assertEquals(Traffic2.RED, EnumUtils.getFirstEnumIgnoreCase(Traffic2.class, null, f, Traffic2.RED)); assertNull(EnumUtils.getFirstEnumIgnoreCase(Traffic2.class, "PURPLE", f, null)); } @Test public void test_isValidEnum() { assertTrue(EnumUtils.isValidEnum(Traffic.class, "RED")); assertTrue(EnumUtils.isValidEnum(Traffic.class, "AMBER")); assertTrue(EnumUtils.isValidEnum(Traffic.class, "GREEN")); assertFalse(EnumUtils.isValidEnum(Traffic.class, "PURPLE")); assertFalse(EnumUtils.isValidEnum(Traffic.class, null)); } @Test public void test_isValidEnum_nullClass() { assertThrows(NullPointerException.class, () -> EnumUtils.isValidEnum(null, "PURPLE")); } @Test public void test_isValidEnumIgnoreCase() { assertTrue(EnumUtils.isValidEnumIgnoreCase(Traffic.class, "red")); assertTrue(EnumUtils.isValidEnumIgnoreCase(Traffic.class, "Amber")); assertTrue(EnumUtils.isValidEnumIgnoreCase(Traffic.class, "grEEn")); assertFalse(EnumUtils.isValidEnumIgnoreCase(Traffic.class, "purple")); assertFalse(EnumUtils.isValidEnumIgnoreCase(Traffic.class, null)); } @Test public void test_isValidEnumIgnoreCase_nullClass() { assertThrows(NullPointerException.class, () -> EnumUtils.isValidEnumIgnoreCase(null, "PURPLE")); } @Test public void test_processBitVector() { assertEquals(EnumSet.noneOf(Traffic.class), EnumUtils.processBitVector(Traffic.class, 0L)); assertEquals(EnumSet.of(Traffic.RED), EnumUtils.processBitVector(Traffic.class, 1L)); assertEquals(EnumSet.of(Traffic.AMBER), EnumUtils.processBitVector(Traffic.class, 2L)); assertEquals(EnumSet.of(Traffic.RED, Traffic.AMBER), EnumUtils.processBitVector(Traffic.class, 3L)); assertEquals(EnumSet.of(Traffic.GREEN), EnumUtils.processBitVector(Traffic.class, 4L)); assertEquals(EnumSet.of(Traffic.RED, Traffic.GREEN), EnumUtils.processBitVector(Traffic.class, 5L)); assertEquals(EnumSet.of(Traffic.AMBER, Traffic.GREEN), EnumUtils.processBitVector(Traffic.class, 6L)); assertEquals(EnumSet.of(Traffic.RED, Traffic.AMBER, Traffic.GREEN), EnumUtils.processBitVector(Traffic.class, 7L)); // 64 values Enum (to test whether no int<->long jdk conversion issue exists) assertEquals(EnumSet.of(Enum64.A31), EnumUtils.processBitVector(Enum64.class, (1L << 31))); assertEquals(EnumSet.of(Enum64.A32), EnumUtils.processBitVector(Enum64.class, (1L << 32))); assertEquals(EnumSet.of(Enum64.A63), EnumUtils.processBitVector(Enum64.class, (1L << 63))); assertEquals(EnumSet.of(Enum64.A63), EnumUtils.processBitVector(Enum64.class, Long.MIN_VALUE)); } @Test public void test_processBitVector_longClass() { assertThrows(IllegalArgumentException.class, () -> EnumUtils.processBitVector(TooMany.class, 0L)); } @Test public void test_processBitVector_nullClass() { final Class empty = null; assertThrows(NullPointerException.class, () -> EnumUtils.processBitVector(empty, 0L)); } @Test public void test_processBitVectors() { assertEquals(EnumSet.noneOf(Traffic.class), EnumUtils.processBitVectors(Traffic.class, 0L)); assertEquals(EnumSet.of(Traffic.RED), EnumUtils.processBitVectors(Traffic.class, 1L)); assertEquals(EnumSet.of(Traffic.AMBER), EnumUtils.processBitVectors(Traffic.class, 2L)); assertEquals(EnumSet.of(Traffic.RED, Traffic.AMBER), EnumUtils.processBitVectors(Traffic.class, 3L)); assertEquals(EnumSet.of(Traffic.GREEN), EnumUtils.processBitVectors(Traffic.class, 4L)); assertEquals(EnumSet.of(Traffic.RED, Traffic.GREEN), EnumUtils.processBitVectors(Traffic.class, 5L)); assertEquals(EnumSet.of(Traffic.AMBER, Traffic.GREEN), EnumUtils.processBitVectors(Traffic.class, 6L)); assertEquals(EnumSet.of(Traffic.RED, Traffic.AMBER, Traffic.GREEN), EnumUtils.processBitVectors(Traffic.class, 7L)); assertEquals(EnumSet.noneOf(Traffic.class), EnumUtils.processBitVectors(Traffic.class, 0L, 0L)); assertEquals(EnumSet.of(Traffic.RED), EnumUtils.processBitVectors(Traffic.class, 0L, 1L)); assertEquals(EnumSet.of(Traffic.AMBER), EnumUtils.processBitVectors(Traffic.class, 0L, 2L)); assertEquals(EnumSet.of(Traffic.RED, Traffic.AMBER), EnumUtils.processBitVectors(Traffic.class, 0L, 3L)); assertEquals(EnumSet.of(Traffic.GREEN), EnumUtils.processBitVectors(Traffic.class, 0L, 4L)); assertEquals(EnumSet.of(Traffic.RED, Traffic.GREEN), EnumUtils.processBitVectors(Traffic.class, 0L, 5L)); assertEquals(EnumSet.of(Traffic.AMBER, Traffic.GREEN), EnumUtils.processBitVectors(Traffic.class, 0L, 6L)); assertEquals(EnumSet.of(Traffic.RED, Traffic.AMBER, Traffic.GREEN), EnumUtils.processBitVectors(Traffic.class, 0L, 7L)); // demonstrate tolerance of irrelevant high-order digits: assertEquals(EnumSet.noneOf(Traffic.class), EnumUtils.processBitVectors(Traffic.class, 666L, 0L)); assertEquals(EnumSet.of(Traffic.RED), EnumUtils.processBitVectors(Traffic.class, 666L, 1L)); assertEquals(EnumSet.of(Traffic.AMBER), EnumUtils.processBitVectors(Traffic.class, 666L, 2L)); assertEquals(EnumSet.of(Traffic.RED, Traffic.AMBER), EnumUtils.processBitVectors(Traffic.class, 666L, 3L)); assertEquals(EnumSet.of(Traffic.GREEN), EnumUtils.processBitVectors(Traffic.class, 666L, 4L)); assertEquals(EnumSet.of(Traffic.RED, Traffic.GREEN), EnumUtils.processBitVectors(Traffic.class, 666L, 5L)); assertEquals(EnumSet.of(Traffic.AMBER, Traffic.GREEN), EnumUtils.processBitVectors(Traffic.class, 666L, 6L)); assertEquals(EnumSet.of(Traffic.RED, Traffic.AMBER, Traffic.GREEN), EnumUtils.processBitVectors(Traffic.class, 666L, 7L)); // 64 values Enum (to test whether no int<->long jdk conversion issue exists) assertEquals(EnumSet.of(Enum64.A31), EnumUtils.processBitVectors(Enum64.class, (1L << 31))); assertEquals(EnumSet.of(Enum64.A32), EnumUtils.processBitVectors(Enum64.class, (1L << 32))); assertEquals(EnumSet.of(Enum64.A63), EnumUtils.processBitVectors(Enum64.class, (1L << 63))); assertEquals(EnumSet.of(Enum64.A63), EnumUtils.processBitVectors(Enum64.class, Long.MIN_VALUE)); } @Test public void test_processBitVectors_longClass() { assertEquals(EnumSet.noneOf(TooMany.class), EnumUtils.processBitVectors(TooMany.class, 0L)); assertEquals(EnumSet.of(TooMany.A), EnumUtils.processBitVectors(TooMany.class, 1L)); assertEquals(EnumSet.of(TooMany.B), EnumUtils.processBitVectors(TooMany.class, 2L)); assertEquals(EnumSet.of(TooMany.A, TooMany.B), EnumUtils.processBitVectors(TooMany.class, 3L)); assertEquals(EnumSet.of(TooMany.C), EnumUtils.processBitVectors(TooMany.class, 4L)); assertEquals(EnumSet.of(TooMany.A, TooMany.C), EnumUtils.processBitVectors(TooMany.class, 5L)); assertEquals(EnumSet.of(TooMany.B, TooMany.C), EnumUtils.processBitVectors(TooMany.class, 6L)); assertEquals(EnumSet.of(TooMany.A, TooMany.B, TooMany.C), EnumUtils.processBitVectors(TooMany.class, 7L)); assertEquals(EnumSet.noneOf(TooMany.class), EnumUtils.processBitVectors(TooMany.class, 0L, 0L)); assertEquals(EnumSet.of(TooMany.A), EnumUtils.processBitVectors(TooMany.class, 0L, 1L)); assertEquals(EnumSet.of(TooMany.B), EnumUtils.processBitVectors(TooMany.class, 0L, 2L)); assertEquals(EnumSet.of(TooMany.A, TooMany.B), EnumUtils.processBitVectors(TooMany.class, 0L, 3L)); assertEquals(EnumSet.of(TooMany.C), EnumUtils.processBitVectors(TooMany.class, 0L, 4L)); assertEquals(EnumSet.of(TooMany.A, TooMany.C), EnumUtils.processBitVectors(TooMany.class, 0L, 5L)); assertEquals(EnumSet.of(TooMany.B, TooMany.C), EnumUtils.processBitVectors(TooMany.class, 0L, 6L)); assertEquals(EnumSet.of(TooMany.A, TooMany.B, TooMany.C), EnumUtils.processBitVectors(TooMany.class, 0L, 7L)); assertEquals(EnumSet.of(TooMany.A, TooMany.B, TooMany.C), EnumUtils.processBitVectors(TooMany.class, 0L, 7L)); assertEquals(EnumSet.of(TooMany.M2), EnumUtils.processBitVectors(TooMany.class, 1L, 0L)); assertEquals(EnumSet.of(TooMany.A, TooMany.M2), EnumUtils.processBitVectors(TooMany.class, 1L, 1L)); assertEquals(EnumSet.of(TooMany.B, TooMany.M2), EnumUtils.processBitVectors(TooMany.class, 1L, 2L)); assertEquals(EnumSet.of(TooMany.A, TooMany.B, TooMany.M2), EnumUtils.processBitVectors(TooMany.class, 1L, 3L)); assertEquals(EnumSet.of(TooMany.C, TooMany.M2), EnumUtils.processBitVectors(TooMany.class, 1L, 4L)); assertEquals(EnumSet.of(TooMany.A, TooMany.C, TooMany.M2), EnumUtils.processBitVectors(TooMany.class, 1L, 5L)); assertEquals(EnumSet.of(TooMany.B, TooMany.C, TooMany.M2), EnumUtils.processBitVectors(TooMany.class, 1L, 6L)); assertEquals(EnumSet.of(TooMany.A, TooMany.B, TooMany.C, TooMany.M2), EnumUtils.processBitVectors(TooMany.class, 1L, 7L)); assertEquals(EnumSet.of(TooMany.A, TooMany.B, TooMany.C, TooMany.M2), EnumUtils.processBitVectors(TooMany.class, 1L, 7L)); // demonstrate tolerance of irrelevant high-order digits: assertEquals(EnumSet.of(TooMany.M2), EnumUtils.processBitVectors(TooMany.class, 9L, 0L)); assertEquals(EnumSet.of(TooMany.A, TooMany.M2), EnumUtils.processBitVectors(TooMany.class, 9L, 1L)); assertEquals(EnumSet.of(TooMany.B, TooMany.M2), EnumUtils.processBitVectors(TooMany.class, 9L, 2L)); assertEquals(EnumSet.of(TooMany.A, TooMany.B, TooMany.M2), EnumUtils.processBitVectors(TooMany.class, 9L, 3L)); assertEquals(EnumSet.of(TooMany.C, TooMany.M2), EnumUtils.processBitVectors(TooMany.class, 9L, 4L)); assertEquals(EnumSet.of(TooMany.A, TooMany.C, TooMany.M2), EnumUtils.processBitVectors(TooMany.class, 9L, 5L)); assertEquals(EnumSet.of(TooMany.B, TooMany.C, TooMany.M2), EnumUtils.processBitVectors(TooMany.class, 9L, 6L)); assertEquals(EnumSet.of(TooMany.A, TooMany.B, TooMany.C, TooMany.M2), EnumUtils.processBitVectors(TooMany.class, 9L, 7L)); assertEquals(EnumSet.of(TooMany.A, TooMany.B, TooMany.C, TooMany.M2), EnumUtils.processBitVectors(TooMany.class, 9L, 7L)); } @Test public void test_processBitVectors_nullClass() { final Class empty = null; assertThrows(NullPointerException.class, () -> EnumUtils.processBitVectors(empty, 0L)); } @Test public void testConstructable() { // enforce public constructor new EnumUtils(); } } enum Month { JAN(1), FEB(2), MAR(3), APR(4), MAY(5), JUN(6), JUL(7), AUG(8), SEP(9), OCT(10), NOV(11), DEC(12); private final int id; Month(final int id) { this.id = id; } public int getId() { return this.id; } } enum TooMany { A, B, C, D, E, F, G, H, I, J, K, L, M, N, O, P, Q, R, S, T, U, V, W, X, Y, Z, A1, B1, C1, D1, E1, F1, G1, H1, I1, J1, K1, L1, M1, N1, O1, P1, Q1, R1, S1, T1, U1, V1, W1, X1, Y1, Z1, A2, B2, C2, D2, E2, F2, G2, H2, I2, J2, K2, L2, M2 } enum Traffic { RED, AMBER, GREEN } enum Traffic2 { RED("***Red***"), AMBER("**Amber**"), GREEN("*green*"); final String label; Traffic2(final String label) { this.label = label; } public String getLabel() { return label; } }