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fastutil extends the Java Collections Framework by providing type-specific maps, sets, lists, and queues with a small memory footprint and fast operations; it provides also big (64-bit) arrays, sets, and lists, sorting algorithms, fast, practical I/O classes for binary and text files, and facilities for memory mapping large files. This jar (fastutil-core.jar) contains data structures based on integers, longs, doubles, and objects, only; fastutil.jar contains all classes. If you have both jars in your dependencies, this jar should be excluded.

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/*
 * Copyright (C) 2002-2021 Sebastiano Vigna
 *
 * Licensed 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 PACKAGE;

import java.util.Collection;
import java.util.Set;
import java.util.function.Consumer;
#if KEYS_BYTE_CHAR_SHORT_FLOAT
import WIDENED_PACKAGE.KEY_WIDENED_ITERATOR;
import WIDENED_PACKAGE.WIDENED_ITERATORS;
import WIDENED_PACKAGE.KEY_WIDENED_SPLITERATOR;
import WIDENED_PACKAGE.WIDENED_SPLITERATORS;
#endif

/** A class providing static methods and objects that do useful things with type-specific sets.
 *
 * @see java.util.Collections
 */

public final class SETS {

	private SETS() {}

	/** The maximum size to choose ArraySet over OpenHashSet for utilites that automatically choose. */
	static final int ARRAY_SET_CUTOFF = 4;

	/** An immutable class representing the empty set and implementing a type-specific set interface.
	 *
	 * 

This class may be useful to implement your own in case you subclass * a type-specific set. */ public static class EmptySet KEY_GENERIC extends COLLECTIONS.EmptyCollection KEY_GENERIC implements SET KEY_GENERIC, java.io.Serializable, Cloneable { private static final long serialVersionUID = -7046029254386353129L; protected EmptySet() {} @Override public boolean remove(KEY_TYPE ok) { throw new UnsupportedOperationException(); } @Override public Object clone() { return EMPTY_SET; } @Override @SuppressWarnings("rawtypes") public boolean equals(final Object o) { return o instanceof Set && ((Set)o).isEmpty(); } #if KEYS_PRIMITIVE @Deprecated @Override public boolean rem(final KEY_TYPE k) { return super.rem(k); } #endif private Object readResolve() { return EMPTY_SET; } } /** An empty set (immutable). It is serializable and cloneable. */ SUPPRESS_WARNINGS_KEY_RAWTYPES public static final EmptySet EMPTY_SET = new EmptySet(); // Used by Sets.of() instead of SETS.EMPTY_SET to make a dimorphic call site. // See https://github.com/vigna/fastutil/issues/183 SUPPRESS_WARNINGS_KEY_UNCHECKED_RAWTYPES static final SET UNMODIFIABLE_EMPTY_SET = SETS.unmodifiable(new ARRAY_SET(ARRAYS.EMPTY_ARRAY)); /** Returns an empty set (immutable). It is serializable and cloneable. * *

This method provides a typesafe access to {@link #EMPTY_SET}. * @return an empty set (immutable). */ @SuppressWarnings("unchecked") public static KEY_GENERIC SET KEY_GENERIC emptySet() { return EMPTY_SET; } /** An immutable class representing a type-specific singleton set. * *

This class may be useful to implement your own in case you subclass * a type-specific set. */ public static class Singleton KEY_GENERIC extends ABSTRACT_SET KEY_GENERIC implements java.io.Serializable, Cloneable { private static final long serialVersionUID = -7046029254386353129L; protected final KEY_GENERIC_TYPE element; protected Singleton(final KEY_GENERIC_TYPE element) { this.element = element; } @Override public boolean contains(final KEY_TYPE k) { return KEY_EQUALS(k, element); } @Override public boolean remove(final KEY_TYPE k) { throw new UnsupportedOperationException(); } @Override public KEY_LIST_ITERATOR KEY_GENERIC iterator() { return ITERATORS.singleton(element); } @Override public KEY_SPLITERATOR KEY_GENERIC spliterator() { return SPLITERATORS.singleton(element); } @Override public int size() { return 1; } @Override public KEY_TYPE[] TO_KEY_ARRAY() { return new KEY_TYPE[]{element}; } DEPRECATED_IF_KEYS_PRIMITIVE @Override public void forEach(final Consumer action) { action.accept(KEY2OBJ(element)); } @Override public boolean addAll(final Collection c) { throw new UnsupportedOperationException(); } @Override public boolean removeAll(final Collection c) { throw new UnsupportedOperationException(); } @Override public boolean retainAll(final Collection c) { throw new UnsupportedOperationException(); } #if KEYS_PRIMITIVE @Deprecated #endif @Override public boolean removeIf(final java.util.function.Predicate filter) { throw new UnsupportedOperationException(); } #if KEYS_PRIMITIVE @Override public void forEach(final METHOD_ARG_KEY_CONSUMER action) { action.accept(element); } @Override public boolean addAll(final COLLECTION c) { throw new UnsupportedOperationException(); } @Override public boolean removeAll(final COLLECTION c) { throw new UnsupportedOperationException(); } @Override public boolean retainAll(final COLLECTION c) { throw new UnsupportedOperationException(); } @Override public boolean removeIf(final METHOD_ARG_PREDICATE filter) { throw new UnsupportedOperationException(); } #if KEYS_BYTE_CHAR_SHORT_FLOAT @Override public KEY_WIDENED_ITERATOR KEY_WIDENED_ITERATOR_METHOD() { return WIDENED_ITERATORS.singleton(element); } @Override public KEY_WIDENED_SPLITERATOR KEY_WIDENED_SPLITERATOR_METHOD() { return WIDENED_SPLITERATORS.singleton(element); } #endif @Deprecated @Override public Object[] toArray() { return new Object[]{ KEY2OBJ(element) }; } #endif @Override public Object clone() { return this; } } /** Returns a type-specific immutable set containing only the specified element. The returned set is serializable and cloneable. * * @param element the only element of the returned set. * @return a type-specific immutable set containing just {@code element}. */ public static KEY_GENERIC SET KEY_GENERIC singleton(final KEY_GENERIC_TYPE element) { return new Singleton KEY_GENERIC_DIAMOND(element); } #if KEYS_PRIMITIVE /** Returns a type-specific immutable set containing only the specified element. The returned set is serializable and cloneable. * * @param element the only element of the returned set. * @return a type-specific immutable set containing just {@code element}. */ public static KEY_GENERIC SET KEY_GENERIC singleton(final KEY_GENERIC_CLASS element) { return new Singleton KEY_GENERIC_DIAMOND(KEY_CLASS2TYPE(element)); } #endif /** A synchronized wrapper class for sets. */ public static class SynchronizedSet KEY_GENERIC extends COLLECTIONS.SynchronizedCollection KEY_GENERIC implements SET KEY_GENERIC, java.io.Serializable { private static final long serialVersionUID = -7046029254386353129L; protected SynchronizedSet(final SET KEY_GENERIC s, final Object sync) { super(s, sync); } protected SynchronizedSet(final SET KEY_GENERIC s) { super(s); } @Override public boolean remove(final KEY_TYPE k) { synchronized(sync) { return collection.REMOVE(k); } } #if KEYS_PRIMITIVE @Deprecated @Override public boolean rem(final KEY_TYPE k) { return super.rem(k); } #endif } /** Returns a synchronized type-specific set backed by the given type-specific set. * * @param s the set to be wrapped in a synchronized set. * @return a synchronized view of the specified set. * @see java.util.Collections#synchronizedSet(Set) */ public static KEY_GENERIC SET KEY_GENERIC synchronize(final SET KEY_GENERIC s) { return new SynchronizedSet KEY_GENERIC_DIAMOND(s); } /** Returns a synchronized type-specific set backed by the given type-specific set, using an assigned object to synchronize. * * @param s the set to be wrapped in a synchronized set. * @param sync an object that will be used to synchronize the access to the set. * @return a synchronized view of the specified set. * @see java.util.Collections#synchronizedSet(Set) */ public static KEY_GENERIC SET KEY_GENERIC synchronize(final SET KEY_GENERIC s, final Object sync) { return new SynchronizedSet KEY_GENERIC_DIAMOND(s, sync); } /** An unmodifiable wrapper class for sets. */ public static class UnmodifiableSet KEY_GENERIC extends COLLECTIONS.UnmodifiableCollection KEY_GENERIC implements SET KEY_GENERIC, java.io.Serializable { private static final long serialVersionUID = -7046029254386353129L; protected UnmodifiableSet(final SET KEY_EXTENDS_GENERIC s) { super(s); } @Override public boolean remove(final KEY_TYPE k) { throw new UnsupportedOperationException(); } @Override public boolean equals(final Object o) { if (o == this) return true; return collection.equals(o); } @Override public int hashCode() { return collection.hashCode(); } #if KEYS_PRIMITIVE @Deprecated @Override public boolean rem(final KEY_TYPE k) { return super.rem(k); } #endif } /** Returns an unmodifiable type-specific set backed by the given type-specific set. * * @param s the set to be wrapped in an unmodifiable set. * @return an unmodifiable view of the specified set. * @see java.util.Collections#unmodifiableSet(Set) */ public static KEY_GENERIC SET KEY_GENERIC unmodifiable(final SET KEY_EXTENDS_GENERIC s) { return new UnmodifiableSet KEY_GENERIC_DIAMOND(s); } #if KEY_CLASS_Byte || KEY_CLASS_Character || KEY_CLASS_Short || KEY_CLASS_Integer || KEY_CLASS_Long /** Returns an unmodifiable type-specific set containing elements in the given range. * * @param from the starting element (lower bound) of the set (inclusive). * @param to the ending element (upper bound) of the set (exclusive). * @return an unmodifiable set containing the elements in the given range. */ public static SET fromTo(final KEY_TYPE from, final KEY_TYPE to) { return new ABSTRACT_SET() { @Override public boolean contains(final KEY_TYPE x) { return x >= from && x < to; } @Override public KEY_ITERATOR iterator() { return ITERATORS.fromTo(from, to); } @Override public int size() { #if KEY_CLASS_Long final long size = to - from; #else final long size = (long)to - (long)from; #endif return size >= 0 && size <= Integer.MAX_VALUE ? (int)size : Integer.MAX_VALUE; } }; } /** Returns an unmodifiable type-specific set containing elements greater than or equal to a given element. * * @param from the starting element (lower bound) of the set (inclusive). * @return an unmodifiable set containing the elements greater than or equal to {@code from}. */ public static SET from(final KEY_TYPE from) { return new ABSTRACT_SET() { @Override public boolean contains(final KEY_TYPE x) { return x >= from; } @Override public KEY_ITERATOR iterator() { return ITERATORS.concat(new KEY_ITERATOR[] { ITERATORS.fromTo(from, KEY_CLASS.MAX_VALUE), SETS.singleton(KEY_CLASS.MAX_VALUE).iterator() }); } @Override public int size() { #if KEY_CLASS_Long final long size = Long.MAX_VALUE - from + 1; #else final long size = KEY_CLASS.MAX_VALUE - (long)from + 1; #endif return size >= 0 && size <= Integer.MAX_VALUE ? (int)size : Integer.MAX_VALUE; } }; } /** Returns an unmodifiable type-specific set containing elements smaller than a given element. * * @param to the ending element (upper bound) of the set (exclusive). * @return an unmodifiable set containing the elements smaller than {@code to}. */ public static SET to(final KEY_TYPE to) { return new ABSTRACT_SET() { @Override public boolean contains(final KEY_TYPE x) { return x < to; } @Override public KEY_ITERATOR iterator() { return ITERATORS.fromTo(KEY_CLASS.MIN_VALUE, to); } @Override public int size() { #if KEY_CLASS_Long final long size = to - Long.MIN_VALUE; #else final long size = (long)to - KEY_CLASS.MIN_VALUE; #endif return size >= 0 && size <= Integer.MAX_VALUE ? (int)size : Integer.MAX_VALUE; } }; } #endif #ifdef TEST private static KEY_TYPE genKey() { #if KEY_CLASS_Byte || KEY_CLASS_Short || KEY_CLASS_Character return (KEY_TYPE)(r.nextInt()); #elif KEYS_PRIMITIVE return r.NEXT_KEY(); #elif KEY_CLASS_Object return Integer.toBinaryString(r.nextInt()); #else return new java.io.Serializable() {}; #endif } private static void test() throws Exception{ int n = 100; int c; KEY_TYPE k = genKey(); Singleton m = new Singleton(k); Set t = java.util.Collections.singleton(KEY2OBJ(k)); long ms; boolean mThrowsIllegal, tThrowsIllegal, mThrowsNoElement, tThrowsNoElement, mThrowsIndex, tThrowsIndex, mThrowsUnsupp, tThrowsUnsupp; boolean rt = false, rm = false; /* Now we check that m and t are equal. */ if (!m.equals(t) || ! t.equals(m)) System.err.println("m: " + m + " t: " + t); ensure(m.equals(t), "Error (" + seed + "): ! m.equals(t) at start"); ensure(t.equals(m), "Error (" + seed + "): ! t.equals(m) at start"); /* Now we check that m actually holds that data. */ for(java.util.Iterator i=t.iterator(); i.hasNext();) { ensure(m.contains(i.next()), "Error (" + seed + "): m and t differ on an entry after insertion (iterating on t)"); } /* Now we check that m actually holds that data, but iterating on m. */ for(java.util.Iterator i=m.iterator(); i.hasNext();) { ensure(t.contains(i.next()), "Error (" + seed + "): m and t differ on an entry after insertion (iterating on m)"); } /* Now we check that inquiries about random data give the same answer in m and t. For m we use the polymorphic method. */ for(int i=0; i 1) r = new java.util.Random(seed = Long.parseLong(arg[1])); try { test(); } catch(Throwable e) { e.printStackTrace(System.err); System.err.println("seed: " + seed); throw e; } } #endif }





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