/* * Copyright (c) 2003, 2011, 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. Oracle designates this * particular file as subject to the "Classpath" exception as provided * by Oracle in the LICENSE file that accompanied this code. * * 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. */ package java.util; import sun.misc.SharedSecrets; /** * A specialized {@link Set} implementation for use with enum types. All of * the elements in an enum set must come from a single enum type that is * specified, explicitly or implicitly, when the set is created. Enum sets * are represented internally as bit vectors. This representation is * extremely compact and efficient. The space and time performance of this * class should be good enough to allow its use as a high-quality, typesafe * alternative to traditional int-based "bit flags." Even bulk * operations (such as containsAll and retainAll) should * run very quickly if their argument is also an enum set. * *

The iterator returned by the iterator method traverses the * elements in their natural order (the order in which the enum * constants are declared). The returned iterator is weakly * consistent: it will never throw {@link ConcurrentModificationException} * and it may or may not show the effects of any modifications to the set that * occur while the iteration is in progress. * *

Null elements are not permitted. Attempts to insert a null element * will throw {@link NullPointerException}. Attempts to test for the * presence of a null element or to remove one will, however, function * properly. * *

Like most collection implementations, EnumSet is not * synchronized. If multiple threads access an enum set concurrently, and at * least one of the threads modifies the set, it should be synchronized * externally. This is typically accomplished by synchronizing on some * object that naturally encapsulates the enum set. If no such object exists, * the set should be "wrapped" using the {@link Collections#synchronizedSet} * method. This is best done at creation time, to prevent accidental * unsynchronized access: * *

 * Set<MyEnum> s = Collections.synchronizedSet(EnumSet.noneOf(MyEnum.class));
 * 
* *

Implementation note: All basic operations execute in constant time. * They are likely (though not guaranteed) to be much faster than their * {@link HashSet} counterparts. Even bulk operations execute in * constant time if their argument is also an enum set. * *

This class is a member of the * * Java Collections Framework. * * @author Josh Bloch * @since 1.5 * @see EnumMap * @serial exclude */ public abstract class EnumSet> extends AbstractSet implements Cloneable, java.io.Serializable { /** * The class of all the elements of this set. */ final Class elementType; /** * All of the values comprising T. (Cached for performance.) */ final Enum[] universe; private static Enum[] ZERO_LENGTH_ENUM_ARRAY = new Enum[0]; EnumSet(ClasselementType, Enum[] universe) { this.elementType = elementType; this.universe = universe; } /** * Creates an empty enum set with the specified element type. * * @param elementType the class object of the element type for this enum * set * @throws NullPointerException if elementType is null */ public static > EnumSet noneOf(Class elementType) { Enum[] universe = getUniverse(elementType); if (universe == null) throw new ClassCastException(elementType + " not an enum"); if (universe.length <= 64) return new RegularEnumSet<>(elementType, universe); else return new JumboEnumSet<>(elementType, universe); } /** * Creates an enum set containing all of the elements in the specified * element type. * * @param elementType the class object of the element type for this enum * set * @throws NullPointerException if elementType is null */ public static > EnumSet allOf(Class elementType) { EnumSet result = noneOf(elementType); result.addAll(); return result; } /** * Adds all of the elements from the appropriate enum type to this enum * set, which is empty prior to the call. */ abstract void addAll(); /** * Creates an enum set with the same element type as the specified enum * set, initially containing the same elements (if any). * * @param s the enum set from which to initialize this enum set * @throws NullPointerException if s is null */ public static > EnumSet copyOf(EnumSet s) { return s.clone(); } /** * Creates an enum set initialized from the specified collection. If * the specified collection is an EnumSet instance, this static * factory method behaves identically to {@link #copyOf(EnumSet)}. * Otherwise, the specified collection must contain at least one element * (in order to determine the new enum set's element type). * * @param c the collection from which to initialize this enum set * @throws IllegalArgumentException if c is not an * EnumSet instance and contains no elements * @throws NullPointerException if c is null */ public static > EnumSet copyOf(Collection c) { if (c instanceof EnumSet) { return ((EnumSet)c).clone(); } else { if (c.isEmpty()) throw new IllegalArgumentException("Collection is empty"); Iterator i = c.iterator(); E first = i.next(); EnumSet result = EnumSet.of(first); while (i.hasNext()) result.add(i.next()); return result; } } /** * Creates an enum set with the same element type as the specified enum * set, initially containing all the elements of this type that are * not contained in the specified set. * * @param s the enum set from whose complement to initialize this enum set * @throws NullPointerException if s is null */ public static > EnumSet complementOf(EnumSet s) { EnumSet result = copyOf(s); result.complement(); return result; } /** * Creates an enum set initially containing the specified element. * * Overloadings of this method exist to initialize an enum set with * one through five elements. A sixth overloading is provided that * uses the varargs feature. This overloading may be used to create * an enum set initially containing an arbitrary number of elements, but * is likely to run slower than the overloadings that do not use varargs. * * @param e the element that this set is to contain initially * @throws NullPointerException if e is null * @return an enum set initially containing the specified element */ public static > EnumSet of(E e) { EnumSet result = noneOf(e.getDeclaringClass()); result.add(e); return result; } /** * Creates an enum set initially containing the specified elements. * * Overloadings of this method exist to initialize an enum set with * one through five elements. A sixth overloading is provided that * uses the varargs feature. This overloading may be used to create * an enum set initially containing an arbitrary number of elements, but * is likely to run slower than the overloadings that do not use varargs. * * @param e1 an element that this set is to contain initially * @param e2 another element that this set is to contain initially * @throws NullPointerException if any parameters are null * @return an enum set initially containing the specified elements */ public static > EnumSet of(E e1, E e2) { EnumSet result = noneOf(e1.getDeclaringClass()); result.add(e1); result.add(e2); return result; } /** * Creates an enum set initially containing the specified elements. * * Overloadings of this method exist to initialize an enum set with * one through five elements. A sixth overloading is provided that * uses the varargs feature. This overloading may be used to create * an enum set initially containing an arbitrary number of elements, but * is likely to run slower than the overloadings that do not use varargs. * * @param e1 an element that this set is to contain initially * @param e2 another element that this set is to contain initially * @param e3 another element that this set is to contain initially * @throws NullPointerException if any parameters are null * @return an enum set initially containing the specified elements */ public static > EnumSet of(E e1, E e2, E e3) { EnumSet result = noneOf(e1.getDeclaringClass()); result.add(e1); result.add(e2); result.add(e3); return result; } /** * Creates an enum set initially containing the specified elements. * * Overloadings of this method exist to initialize an enum set with * one through five elements. A sixth overloading is provided that * uses the varargs feature. This overloading may be used to create * an enum set initially containing an arbitrary number of elements, but * is likely to run slower than the overloadings that do not use varargs. * * @param e1 an element that this set is to contain initially * @param e2 another element that this set is to contain initially * @param e3 another element that this set is to contain initially * @param e4 another element that this set is to contain initially * @throws NullPointerException if any parameters are null * @return an enum set initially containing the specified elements */ public static > EnumSet of(E e1, E e2, E e3, E e4) { EnumSet result = noneOf(e1.getDeclaringClass()); result.add(e1); result.add(e2); result.add(e3); result.add(e4); return result; } /** * Creates an enum set initially containing the specified elements. * * Overloadings of this method exist to initialize an enum set with * one through five elements. A sixth overloading is provided that * uses the varargs feature. This overloading may be used to create * an enum set initially containing an arbitrary number of elements, but * is likely to run slower than the overloadings that do not use varargs. * * @param e1 an element that this set is to contain initially * @param e2 another element that this set is to contain initially * @param e3 another element that this set is to contain initially * @param e4 another element that this set is to contain initially * @param e5 another element that this set is to contain initially * @throws NullPointerException if any parameters are null * @return an enum set initially containing the specified elements */ public static > EnumSet of(E e1, E e2, E e3, E e4, E e5) { EnumSet result = noneOf(e1.getDeclaringClass()); result.add(e1); result.add(e2); result.add(e3); result.add(e4); result.add(e5); return result; } /** * Creates an enum set initially containing the specified elements. * This factory, whose parameter list uses the varargs feature, may * be used to create an enum set initially containing an arbitrary * number of elements, but it is likely to run slower than the overloadings * that do not use varargs. * * @param first an element that the set is to contain initially * @param rest the remaining elements the set is to contain initially * @throws NullPointerException if any of the specified elements are null, * or if rest is null * @return an enum set initially containing the specified elements */ @SafeVarargs public static > EnumSet of(E first, E... rest) { EnumSet result = noneOf(first.getDeclaringClass()); result.add(first); for (E e : rest) result.add(e); return result; } /** * Creates an enum set initially containing all of the elements in the * range defined by the two specified endpoints. The returned set will * contain the endpoints themselves, which may be identical but must not * be out of order. * * @param from the first element in the range * @param to the last element in the range * @throws NullPointerException if {@code from} or {@code to} are null * @throws IllegalArgumentException if {@code from.compareTo(to) > 0} * @return an enum set initially containing all of the elements in the * range defined by the two specified endpoints */ public static > EnumSet range(E from, E to) { if (from.compareTo(to) > 0) throw new IllegalArgumentException(from + " > " + to); EnumSet result = noneOf(from.getDeclaringClass()); result.addRange(from, to); return result; } /** * Adds the specified range to this enum set, which is empty prior * to the call. */ abstract void addRange(E from, E to); /** * Returns a copy of this set. * * @return a copy of this set */ public EnumSet clone() { try { return (EnumSet) super.clone(); } catch(CloneNotSupportedException e) { throw new AssertionError(e); } } /** * Complements the contents of this enum set. */ abstract void complement(); /** * Throws an exception if e is not of the correct type for this enum set. */ final void typeCheck(E e) { Class eClass = e.getClass(); if (eClass != elementType && eClass.getSuperclass() != elementType) throw new ClassCastException(eClass + " != " + elementType); } /** * Returns all of the values comprising E. * The result is uncloned, cached, and shared by all callers. */ private static > E[] getUniverse(Class elementType) { return SharedSecrets.getJavaLangAccess() .getEnumConstantsShared(elementType); } /** * This class is used to serialize all EnumSet instances, regardless of * implementation type. It captures their "logical contents" and they * are reconstructed using public static factories. This is necessary * to ensure that the existence of a particular implementation type is * an implementation detail. * * @serial include */ private static class SerializationProxy > implements java.io.Serializable { /** * The element type of this enum set. * * @serial */ private final Class elementType; /** * The elements contained in this enum set. * * @serial */ private final Enum[] elements; SerializationProxy(EnumSet set) { elementType = set.elementType; elements = set.toArray(ZERO_LENGTH_ENUM_ARRAY); } private Object readResolve() { EnumSet result = EnumSet.noneOf(elementType); for (Enum e : elements) result.add((E)e); return result; } private static final long serialVersionUID = 362491234563181265L; } Object writeReplace() { return new SerializationProxy<>(this); } // readObject method for the serialization proxy pattern // See Effective Java, Second Ed., Item 78. private void readObject(java.io.ObjectInputStream stream) throws java.io.InvalidObjectException { throw new java.io.InvalidObjectException("Proxy required"); } }