/*
 * Hibernate, Relational Persistence for Idiomatic Java
 *
 * Copyright (c) 2008, Red Hat Middleware LLC or third-party contributors as
 * indicated by the @author tags or express copyright attribution
 * statements applied by the authors.  All third-party contributions are
 * distributed under license by Red Hat Middleware LLC.
 *
 * This copyrighted material is made available to anyone wishing to use, modify,
 * copy, or redistribute it subject to the terms and conditions of the GNU
 * Lesser General Public License, as published by the Free Software Foundation.
 *
 * This program 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 Lesser General Public License
 * for more details.
 *
 * You should have received a copy of the GNU Lesser General Public License
 * along with this distribution; if not, write to:
 * Free Software Foundation, Inc.
 * 51 Franklin Street, Fifth Floor
 * Boston, MA  02110-1301  USA
 */
package org.hibernate.internal.util.collections;

import java.util.ArrayList;
import java.util.Collection;
import java.util.Collections;
import java.util.HashMap;
import java.util.HashSet;
import java.util.List;
import java.util.Map;
import java.util.Set;
import java.util.concurrent.ConcurrentHashMap;

Various help for handling collections.
Author:Gavin King, Steve Ebersole
/** * Various help for handling collections. * * @author Gavin King * @author Steve Ebersole */
public final class CollectionHelper { public static final int MINIMUM_INITIAL_CAPACITY = 16; public static final float LOAD_FACTOR = 0.75f;
Deprecated:use Collections.EMPTY_LIST or Collections.emptyList() instead
/** * @deprecated use {@link java.util.Collections#EMPTY_LIST} or {@link java.util.Collections#emptyList()} instead */
@Deprecated public static final List EMPTY_LIST = Collections.EMPTY_LIST;
Deprecated:use Collections.EMPTY_LIST or Collections.emptyList() instead
/** * @deprecated use {@link java.util.Collections#EMPTY_LIST} or {@link java.util.Collections#emptyList()} instead */
@Deprecated public static final Collection EMPTY_COLLECTION = Collections.EMPTY_LIST;
Deprecated:use Collections.EMPTY_MAP or Collections.emptyMap() instead
/** * @deprecated use {@link java.util.Collections#EMPTY_MAP} or {@link java.util.Collections#emptyMap()} instead */
@Deprecated public static final Map EMPTY_MAP = Collections.EMPTY_MAP; private CollectionHelper() { }
Build a properly sized map, especially handling load size and load factor to prevent immediate resizing.

Especially helpful for copy map contents.
Params:
  • size – The size to make the map.
Returns:The sized map.
/** * Build a properly sized map, especially handling load size and load factor to prevent immediate resizing. * <p/> * Especially helpful for copy map contents. * * @param size The size to make the map. * @return The sized map. */
public static <K,V> Map<K,V> mapOfSize(int size) { return new HashMap<K,V>( determineProperSizing( size ), LOAD_FACTOR ); }
Given a map, determine the proper initial size for a new Map to hold the same number of values. Specifically we want to account for load size and load factor to prevent immediate resizing.
Params:
  • original – The original map
Returns:The proper size.
/** * Given a map, determine the proper initial size for a new Map to hold the same number of values. * Specifically we want to account for load size and load factor to prevent immediate resizing. * * @param original The original map * @return The proper size. */
public static int determineProperSizing(Map original) { return determineProperSizing( original.size() ); }
Given a set, determine the proper initial size for a new set to hold the same number of values. Specifically we want to account for load size and load factor to prevent immediate resizing.
Params:
  • original – The original set
Returns:The proper size.
/** * Given a set, determine the proper initial size for a new set to hold the same number of values. * Specifically we want to account for load size and load factor to prevent immediate resizing. * * @param original The original set * @return The proper size. */
public static int determineProperSizing(Set original) { return determineProperSizing( original.size() ); }
Determine the proper initial size for a new collection in order for it to hold the given a number of elements. Specifically we want to account for load size and load factor to prevent immediate resizing.
Params:
  • numberOfElements – The number of elements to be stored.
Returns:The proper size.
/** * Determine the proper initial size for a new collection in order for it to hold the given a number of elements. * Specifically we want to account for load size and load factor to prevent immediate resizing. * * @param numberOfElements The number of elements to be stored. * @return The proper size. */
public static int determineProperSizing(int numberOfElements) { int actual = ( (int) (numberOfElements / LOAD_FACTOR) ) + 1; return Math.max( actual, MINIMUM_INITIAL_CAPACITY ); }
Create a properly sized ConcurrentHashMap based on the given expected number of elements.
Params:
  • expectedNumberOfElements – The expected number of elements for the created map
Type parameters:
  • <K> – The map key type
  • <V> – The map value type
Returns:The created map.
/** * Create a properly sized {@link ConcurrentHashMap} based on the given expected number of elements. * * @param expectedNumberOfElements The expected number of elements for the created map * @param <K> The map key type * @param <V> The map value type * * @return The created map. */
public static <K,V> ConcurrentHashMap<K,V> concurrentMap(int expectedNumberOfElements) { return concurrentMap( expectedNumberOfElements, LOAD_FACTOR ); }
Create a properly sized ConcurrentHashMap based on the given expected number of elements and an explicit load factor
Params:
  • expectedNumberOfElements – The expected number of elements for the created map
  • loadFactor – The collection load factor
Type parameters:
  • <K> – The map key type
  • <V> – The map value type
Returns:The created map.
/** * Create a properly sized {@link ConcurrentHashMap} based on the given expected number of elements and an * explicit load factor * * @param expectedNumberOfElements The expected number of elements for the created map * @param loadFactor The collection load factor * @param <K> The map key type * @param <V> The map value type * * @return The created map. */
public static <K,V> ConcurrentHashMap<K,V> concurrentMap(int expectedNumberOfElements, float loadFactor) { final int size = expectedNumberOfElements + 1 + (int) ( expectedNumberOfElements * loadFactor ); return new ConcurrentHashMap<K, V>( size, loadFactor ); } public static <T> List<T> arrayList(int anticipatedSize) { return new ArrayList<T>( anticipatedSize ); } public static <T> Set<T> makeCopy(Set<T> source) { if ( source == null ) { return null; } final int size = source.size(); final Set<T> copy = new HashSet<T>( size + 1 ); copy.addAll( source ); return copy; } public static boolean isEmpty(Collection collection) { return collection == null || collection.isEmpty(); } public static boolean isEmpty(Map map) { return map == null || map.isEmpty(); } public static boolean isNotEmpty(Collection collection) { return !isEmpty( collection ); } public static boolean isNotEmpty(Map map) { return !isEmpty( map ); } public static boolean isEmpty(Object[] objects){ return objects == null || objects.length==0; } public static <X,Y> Map<X, Y> makeCopy(Map<X, Y> map) { final Map<X,Y> copy = mapOfSize( map.size() + 1 ); copy.putAll( map ); return copy; } }