All Downloads are FREE. Search and download functionalities are using the official Maven repository.

org.apache.commons.collections4.IteratorUtils Maven / Gradle / Ivy

There is a newer version: 5.0.71
Show newest version
/*
 * 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.collections4;

import java.lang.reflect.Array;
import java.lang.reflect.InvocationTargetException;
import java.lang.reflect.Method;
import java.util.ArrayList;
import java.util.Collection;
import java.util.Comparator;
import java.util.Dictionary;
import java.util.Enumeration;
import java.util.Iterator;
import java.util.List;
import java.util.ListIterator;
import java.util.Map;

import org.apache.commons.collections4.functors.EqualPredicate;
import org.apache.commons.collections4.iterators.ArrayIterator;
import org.apache.commons.collections4.iterators.ArrayListIterator;
import org.apache.commons.collections4.iterators.BoundedIterator;
import org.apache.commons.collections4.iterators.CollatingIterator;
import org.apache.commons.collections4.iterators.EmptyIterator;
import org.apache.commons.collections4.iterators.EmptyListIterator;
import org.apache.commons.collections4.iterators.EmptyMapIterator;
import org.apache.commons.collections4.iterators.EmptyOrderedIterator;
import org.apache.commons.collections4.iterators.EmptyOrderedMapIterator;
import org.apache.commons.collections4.iterators.EnumerationIterator;
import org.apache.commons.collections4.iterators.FilterIterator;
import org.apache.commons.collections4.iterators.FilterListIterator;
import org.apache.commons.collections4.iterators.IteratorChain;
import org.apache.commons.collections4.iterators.IteratorEnumeration;
import org.apache.commons.collections4.iterators.IteratorIterable;
import org.apache.commons.collections4.iterators.ListIteratorWrapper;
import org.apache.commons.collections4.iterators.LoopingIterator;
import org.apache.commons.collections4.iterators.LoopingListIterator;
import org.apache.commons.collections4.iterators.NodeListIterator;
import org.apache.commons.collections4.iterators.ObjectArrayIterator;
import org.apache.commons.collections4.iterators.ObjectArrayListIterator;
import org.apache.commons.collections4.iterators.ObjectGraphIterator;
import org.apache.commons.collections4.iterators.PeekingIterator;
import org.apache.commons.collections4.iterators.PushbackIterator;
import org.apache.commons.collections4.iterators.SingletonIterator;
import org.apache.commons.collections4.iterators.SingletonListIterator;
import org.apache.commons.collections4.iterators.SkippingIterator;
import org.apache.commons.collections4.iterators.TransformIterator;
import org.apache.commons.collections4.iterators.UnmodifiableIterator;
import org.apache.commons.collections4.iterators.UnmodifiableListIterator;
import org.apache.commons.collections4.iterators.UnmodifiableMapIterator;
import org.apache.commons.collections4.iterators.ZippingIterator;
import org.w3c.dom.Node;
import org.w3c.dom.NodeList;

/**
 * Provides static utility methods and decorators for {@link Iterator}
 * instances. The implementations are provided in the iterators subpackage.
 *
 * @since 2.1
 */
public class IteratorUtils {
    // validation is done in this class in certain cases because the
    // public classes allow invalid states

    /**
     * An iterator over no elements.
     */
    @SuppressWarnings("rawtypes")
    public static final ResettableIterator EMPTY_ITERATOR = EmptyIterator.RESETTABLE_INSTANCE;

    /**
     * A list iterator over no elements.
     */
    @SuppressWarnings("rawtypes")
    public static final ResettableListIterator EMPTY_LIST_ITERATOR = EmptyListIterator.RESETTABLE_INSTANCE;

    /**
     * An ordered iterator over no elements.
     */
    @SuppressWarnings("rawtypes")
    public static final OrderedIterator EMPTY_ORDERED_ITERATOR = EmptyOrderedIterator.INSTANCE;

    /**
     * A map iterator over no elements.
     */
    @SuppressWarnings("rawtypes")
    public static final MapIterator EMPTY_MAP_ITERATOR = EmptyMapIterator.INSTANCE;

    /**
     * An ordered map iterator over no elements.
     */
    @SuppressWarnings("rawtypes")
    public static final OrderedMapIterator EMPTY_ORDERED_MAP_ITERATOR = EmptyOrderedMapIterator.INSTANCE;

    /**
     * Default prefix used while converting an Iterator to its String representation.
     */
    private static final String DEFAULT_TOSTRING_PREFIX = "[";

    /**
     * Default suffix used while converting an Iterator to its String representation.
     */
    private static final String DEFAULT_TOSTRING_SUFFIX = "]";

    /**
     * Default delimiter used to delimit elements while converting an Iterator
     * to its String representation.
     */
    private static final String DEFAULT_TOSTRING_DELIMITER = ", ";

    /**
     * IteratorUtils is not normally instantiated.
     */
    private IteratorUtils() {}

    // Empty
    //-----------------------------------------------------------------------
    /**
     * Gets an empty iterator.
     * 

* This iterator is a valid iterator object that will iterate over nothing. * * @param the element type * @return an iterator over nothing */ public static ResettableIterator emptyIterator() { return EmptyIterator.resettableEmptyIterator(); } /** * Gets an empty list iterator. *

* This iterator is a valid list iterator object that will iterate * over nothing. * * @param the element type * @return a list iterator over nothing */ public static ResettableListIterator emptyListIterator() { return EmptyListIterator.resettableEmptyListIterator(); } /** * Gets an empty ordered iterator. *

* This iterator is a valid iterator object that will iterate * over nothing. * * @param the element type * @return an ordered iterator over nothing */ public static OrderedIterator emptyOrderedIterator() { return EmptyOrderedIterator.emptyOrderedIterator(); } /** * Gets an empty map iterator. *

* This iterator is a valid map iterator object that will iterate * over nothing. * * @param the key type * @param the value type * @return a map iterator over nothing */ public static MapIterator emptyMapIterator() { return EmptyMapIterator.emptyMapIterator(); } /** * Gets an empty ordered map iterator. *

* This iterator is a valid map iterator object that will iterate * over nothing. * * @param the key type * @param the value type * @return a map iterator over nothing */ public static OrderedMapIterator emptyOrderedMapIterator() { return EmptyOrderedMapIterator.emptyOrderedMapIterator(); } // Singleton //----------------------------------------------------------------------- /** * Gets a singleton iterator. *

* This iterator is a valid iterator object that will iterate over * the specified object. * * @param the element type * @param object the single object over which to iterate * @return a singleton iterator over the object */ public static ResettableIterator singletonIterator(final E object) { return new SingletonIterator<>(object); } /** * Gets a singleton list iterator. *

* This iterator is a valid list iterator object that will iterate over * the specified object. * * @param the element type * @param object the single object over which to iterate * @return a singleton list iterator over the object */ public static ListIterator singletonListIterator(final E object) { return new SingletonListIterator<>(object); } // Arrays //----------------------------------------------------------------------- /** * Gets an iterator over an object array. * * @param the element type * @param array the array over which to iterate * @return an iterator over the array * @throws NullPointerException if array is null */ public static ResettableIterator arrayIterator(final E... array) { return new ObjectArrayIterator<>(array); } /** * Gets an iterator over an object or primitive array. *

* This method will handle primitive arrays as well as object arrays. * The primitives will be wrapped in the appropriate wrapper class. * * @param the element type * @param array the array over which to iterate * @return an iterator over the array * @throws IllegalArgumentException if the array is not an array * @throws NullPointerException if array is null */ public static ResettableIterator arrayIterator(final Object array) { return new ArrayIterator<>(array); } /** * Gets an iterator over the end part of an object array. * * @param the element type * @param array the array over which to iterate * @param start the index to start iterating at * @return an iterator over part of the array * @throws IndexOutOfBoundsException if start is less than zero or greater * than the length of the array * @throws NullPointerException if array is null */ public static ResettableIterator arrayIterator(final E[] array, final int start) { return new ObjectArrayIterator<>(array, start); } /** * Gets an iterator over the end part of an object or primitive array. *

* This method will handle primitive arrays as well as object arrays. * The primitives will be wrapped in the appropriate wrapper class. * * @param the element type * @param array the array over which to iterate * @param start the index to start iterating at * @return an iterator over part of the array * @throws IllegalArgumentException if the array is not an array * @throws IndexOutOfBoundsException if start is less than zero or greater * than the length of the array * @throws NullPointerException if array is null */ public static ResettableIterator arrayIterator(final Object array, final int start) { return new ArrayIterator<>(array, start); } /** * Gets an iterator over part of an object array. * * @param the element type * @param array the array over which to iterate * @param start the index to start iterating at * @param end the index to finish iterating at * @return an iterator over part of the array * @throws IndexOutOfBoundsException if array bounds are invalid * @throws IllegalArgumentException if end is before start * @throws NullPointerException if array is null */ public static ResettableIterator arrayIterator(final E[] array, final int start, final int end) { return new ObjectArrayIterator<>(array, start, end); } /** * Gets an iterator over part of an object or primitive array. *

* This method will handle primitive arrays as well as object arrays. * The primitives will be wrapped in the appropriate wrapper class. * * @param the element type * @param array the array over which to iterate * @param start the index to start iterating at * @param end the index to finish iterating at * @return an iterator over part of the array * @throws IllegalArgumentException if the array is not an array or end is before start * @throws IndexOutOfBoundsException if array bounds are invalid * @throws NullPointerException if array is null */ public static ResettableIterator arrayIterator(final Object array, final int start, final int end) { return new ArrayIterator<>(array, start, end); } //----------------------------------------------------------------------- /** * Gets a list iterator over an object array. * * @param the element type * @param array the array over which to iterate * @return a list iterator over the array * @throws NullPointerException if array is null */ public static ResettableListIterator arrayListIterator(final E... array) { return new ObjectArrayListIterator<>(array); } /** * Gets a list iterator over an object or primitive array. *

* This method will handle primitive arrays as well as object arrays. * The primitives will be wrapped in the appropriate wrapper class. * * @param the element type * @param array the array over which to iterate * @return a list iterator over the array * @throws IllegalArgumentException if the array is not an array * @throws NullPointerException if array is null */ public static ResettableListIterator arrayListIterator(final Object array) { return new ArrayListIterator<>(array); } /** * Gets a list iterator over the end part of an object array. * * @param the element type * @param array the array over which to iterate * @param start the index to start iterating at * @return a list iterator over part of the array * @throws IndexOutOfBoundsException if start is less than zero * @throws NullPointerException if array is null */ public static ResettableListIterator arrayListIterator(final E[] array, final int start) { return new ObjectArrayListIterator<>(array, start); } /** * Gets a list iterator over the end part of an object or primitive array. *

* This method will handle primitive arrays as well as object arrays. * The primitives will be wrapped in the appropriate wrapper class. * * @param the element type * @param array the array over which to iterate * @param start the index to start iterating at * @return a list iterator over part of the array * @throws IllegalArgumentException if the array is not an array * @throws IndexOutOfBoundsException if start is less than zero * @throws NullPointerException if array is null */ public static ResettableListIterator arrayListIterator(final Object array, final int start) { return new ArrayListIterator<>(array, start); } /** * Gets a list iterator over part of an object array. * * @param the element type * @param array the array over which to iterate * @param start the index to start iterating at * @param end the index to finish iterating at * @return a list iterator over part of the array * @throws IndexOutOfBoundsException if array bounds are invalid * @throws IllegalArgumentException if end is before start * @throws NullPointerException if array is null */ public static ResettableListIterator arrayListIterator(final E[] array, final int start, final int end) { return new ObjectArrayListIterator<>(array, start, end); } /** * Gets a list iterator over part of an object or primitive array. *

* This method will handle primitive arrays as well as object arrays. * The primitives will be wrapped in the appropriate wrapper class. * * @param the element type * @param array the array over which to iterate * @param start the index to start iterating at * @param end the index to finish iterating at * @return a list iterator over part of the array * @throws IllegalArgumentException if the array is not an array or end is before start * @throws IndexOutOfBoundsException if array bounds are invalid * @throws NullPointerException if array is null */ public static ResettableListIterator arrayListIterator(final Object array, final int start, final int end) { return new ArrayListIterator<>(array, start, end); } // Bounded //----------------------------------------------------------------------- /** * Decorates the specified iterator to return at most the given number * of elements. * * @param the element type * @param iterator the iterator to decorate * @param max the maximum number of elements returned by this iterator * @return a new bounded iterator * @throws NullPointerException if the iterator is null * @throws IllegalArgumentException if max is negative * @since 4.1 */ public static BoundedIterator boundedIterator(final Iterator iterator, final long max) { return boundedIterator(iterator, 0, max); } /** * Decorates the specified iterator to return at most the given number * of elements, skipping all elements until the iterator reaches the * position at {@code offset}. *

* The iterator is immediately advanced until it reaches the position at * {@code offset}, incurring O(n) time. * * @param the element type * @param iterator the iterator to decorate * @param offset the index of the first element of the decorated iterator to return * @param max the maximum number of elements returned by this iterator * @return a new bounded iterator * @throws NullPointerException if the iterator is null * @throws IllegalArgumentException if either offset or max is negative * @since 4.1 */ public static BoundedIterator boundedIterator(final Iterator iterator, final long offset, final long max) { return new BoundedIterator<>(iterator, offset, max); } // Unmodifiable //----------------------------------------------------------------------- /** * Gets an immutable version of an {@link Iterator}. The returned object * will always throw an {@link UnsupportedOperationException} for * the {@link Iterator#remove} method. * * @param the element type * @param iterator the iterator to make immutable * @return an immutable version of the iterator */ public static Iterator unmodifiableIterator(final Iterator iterator) { return UnmodifiableIterator.unmodifiableIterator(iterator); } /** * Gets an immutable version of a {@link ListIterator}. The returned object * will always throw an {@link UnsupportedOperationException} for * the {@link Iterator#remove}, {@link ListIterator#add} and * {@link ListIterator#set} methods. * * @param the element type * @param listIterator the iterator to make immutable * @return an immutable version of the iterator */ public static ListIterator unmodifiableListIterator(final ListIterator listIterator) { return UnmodifiableListIterator.umodifiableListIterator(listIterator); } /** * Gets an immutable version of a {@link MapIterator}. The returned object * will always throw an {@link UnsupportedOperationException} for * the {@link Iterator#remove}, {@link MapIterator#setValue(Object)} methods. * * @param the key type * @param the value type * @param mapIterator the iterator to make immutable * @return an immutable version of the iterator */ public static MapIterator unmodifiableMapIterator(final MapIterator mapIterator) { return UnmodifiableMapIterator.unmodifiableMapIterator(mapIterator); } // Chained //----------------------------------------------------------------------- /** * Gets an iterator that iterates through two {@link Iterator}s * one after another. * * @param the element type * @param iterator1 the first iterator to use, not null * @param iterator2 the second iterator to use, not null * @return a combination iterator over the iterators * @throws NullPointerException if either iterator is null */ public static Iterator chainedIterator(final Iterator iterator1, final Iterator iterator2) { // keep a version with two iterators to avoid the following warning in client code (Java 5 & 6) // "A generic array of E is created for a varargs parameter" return new IteratorChain<>(iterator1, iterator2); } /** * Gets an iterator that iterates through an array of {@link Iterator}s * one after another. * * @param the element type * @param iterators the iterators to use, not null or empty or contain nulls * @return a combination iterator over the iterators * @throws NullPointerException if iterators array is null or contains a null */ public static Iterator chainedIterator(final Iterator... iterators) { return new IteratorChain<>(iterators); } /** * Gets an iterator that iterates through a collections of {@link Iterator}s * one after another. * * @param the element type * @param iterators the iterators to use, not null or empty or contain nulls * @return a combination iterator over the iterators * @throws NullPointerException if iterators collection is null or contains a null * @throws ClassCastException if the iterators collection contains the wrong object type */ public static Iterator chainedIterator(final Collection> iterators) { return new IteratorChain<>(iterators); } // Collated //----------------------------------------------------------------------- /** * Gets an iterator that provides an ordered iteration over the elements * contained in a collection of ordered {@link Iterator}s. *

* Given two ordered {@link Iterator}s A and B, * the {@link Iterator#next()} method will return the lesser of * A.next() and B.next(). *

* The comparator is optional. If null is specified then natural order is used. * * @param the element type * @param comparator the comparator to use, may be null for natural order * @param iterator1 the first iterators to use, not null * @param iterator2 the first iterators to use, not null * @return a combination iterator over the iterators * @throws NullPointerException if either iterator is null */ public static Iterator collatedIterator(final Comparator comparator, final Iterator iterator1, final Iterator iterator2) { @SuppressWarnings("unchecked") final Comparator comp = comparator == null ? ComparatorUtils.NATURAL_COMPARATOR : (Comparator) comparator; return new CollatingIterator<>(comp, iterator1, iterator2); } /** * Gets an iterator that provides an ordered iteration over the elements * contained in an array of {@link Iterator}s. *

* Given two ordered {@link Iterator}s A and B, * the {@link Iterator#next()} method will return the lesser of * A.next() and B.next() and so on. *

* The comparator is optional. If null is specified then natural order is used. * * @param the element type * @param comparator the comparator to use, may be null for natural order * @param iterators the iterators to use, not null or empty or contain nulls * @return a combination iterator over the iterators * @throws NullPointerException if iterators array is null or contains a null value */ public static Iterator collatedIterator(final Comparator comparator, final Iterator... iterators) { @SuppressWarnings("unchecked") final Comparator comp = comparator == null ? ComparatorUtils.NATURAL_COMPARATOR : (Comparator) comparator; return new CollatingIterator<>(comp, iterators); } /** * Gets an iterator that provides an ordered iteration over the elements * contained in a collection of {@link Iterator}s. *

* Given two ordered {@link Iterator}s A and B, * the {@link Iterator#next()} method will return the lesser of * A.next() and B.next() and so on. *

* The comparator is optional. If null is specified then natural order is used. * * @param the element type * @param comparator the comparator to use, may be null for natural order * @param iterators the iterators to use, not null or empty or contain nulls * @return a combination iterator over the iterators * @throws NullPointerException if iterators collection is null or contains a null * @throws ClassCastException if the iterators collection contains the wrong object type */ public static Iterator collatedIterator(final Comparator comparator, final Collection> iterators) { @SuppressWarnings("unchecked") final Comparator comp = comparator == null ? ComparatorUtils.NATURAL_COMPARATOR : (Comparator) comparator; return new CollatingIterator<>(comp, iterators); } // Object Graph //----------------------------------------------------------------------- /** * Gets an iterator that operates over an object graph. *

* This iterator can extract multiple objects from a complex tree-like object graph. * The iteration starts from a single root object. * It uses a Transformer to extract the iterators and elements. * Its main benefit is that no intermediate List is created. *

* For example, consider an object graph: *

     *                 |- Branch -- Leaf
     *                 |         \- Leaf
     *         |- Tree |         /- Leaf
     *         |       |- Branch -- Leaf
     *  Forest |                 \- Leaf
     *         |       |- Branch -- Leaf
     *         |       |         \- Leaf
     *         |- Tree |         /- Leaf
     *                 |- Branch -- Leaf
     *                 |- Branch -- Leaf
* The following Transformer, used in this class, will extract all * the Leaf objects without creating a combined intermediate list: *
     * public Object transform(Object input) {
     *   if (input instanceof Forest) {
     *     return ((Forest) input).treeIterator();
     *   }
     *   if (input instanceof Tree) {
     *     return ((Tree) input).branchIterator();
     *   }
     *   if (input instanceof Branch) {
     *     return ((Branch) input).leafIterator();
     *   }
     *   if (input instanceof Leaf) {
     *     return input;
     *   }
     *   throw new ClassCastException();
     * }
*

* Internally, iteration starts from the root object. When next is called, * the transformer is called to examine the object. The transformer will return * either an iterator or an object. If the object is an Iterator, the next element * from that iterator is obtained and the process repeats. If the element is an object * it is returned. *

* Under many circumstances, linking Iterators together in this manner is * more efficient (and convenient) than using nested for loops to extract a list. * * @param the element type * @param root the root object to start iterating from, null results in an empty iterator * @param transformer the transformer to use, see above, null uses no effect transformer * @return a new object graph iterator * @since 3.1 */ public static Iterator objectGraphIterator(final E root, final Transformer transformer) { return new ObjectGraphIterator<>(root, transformer); } // Transformed //----------------------------------------------------------------------- /** * Gets an iterator that transforms the elements of another iterator. *

* The transformation occurs during the next() method and the underlying * iterator is unaffected by the transformation. * * @param the input type * @param the output type * @param iterator the iterator to use, not null * @param transform the transform to use, not null * @return a new transforming iterator * @throws NullPointerException if either parameter is null */ public static Iterator transformedIterator(final Iterator iterator, final Transformer transform) { if (iterator == null) { throw new NullPointerException("Iterator must not be null"); } if (transform == null) { throw new NullPointerException("Transformer must not be null"); } return new TransformIterator<>(iterator, transform); } // Filtered //----------------------------------------------------------------------- /** * Gets an iterator that filters another iterator. *

* The returned iterator will only return objects that match the specified * filtering predicate. * * @param the element type * @param iterator the iterator to use, not null * @param predicate the predicate to use as a filter, not null * @return a new filtered iterator * @throws NullPointerException if either parameter is null */ public static Iterator filteredIterator(final Iterator iterator, final Predicate predicate) { if (iterator == null) { throw new NullPointerException("Iterator must not be null"); } if (predicate == null) { throw new NullPointerException("Predicate must not be null"); } return new FilterIterator<>(iterator, predicate); } /** * Gets a list iterator that filters another list iterator. *

* The returned iterator will only return objects that match the specified * filtering predicate. * * @param the element type * @param listIterator the list iterator to use, not null * @param predicate the predicate to use as a filter, not null * @return a new filtered iterator * @throws NullPointerException if either parameter is null */ public static ListIterator filteredListIterator(final ListIterator listIterator, final Predicate predicate) { if (listIterator == null) { throw new NullPointerException("ListIterator must not be null"); } if (predicate == null) { throw new NullPointerException("Predicate must not be null"); } return new FilterListIterator<>(listIterator, predicate); } // Looping //----------------------------------------------------------------------- /** * Gets an iterator that loops continuously over the supplied collection. *

* The iterator will only stop looping if the remove method is called * enough times to empty the collection, or if the collection is empty * to start with. * * @param the element type * @param coll the collection to iterate over, not null * @return a new looping iterator * @throws NullPointerException if the collection is null */ public static ResettableIterator loopingIterator(final Collection coll) { if (coll == null) { throw new NullPointerException("Collection must not be null"); } return new LoopingIterator<>(coll); } /** * Gets an iterator that loops continuously over the supplied list. *

* The iterator will only stop looping if the remove method is called * enough times to empty the list, or if the list is empty to start with. * * @param the element type * @param list the list to iterate over, not null * @return a new looping iterator * @throws NullPointerException if the list is null * @since 3.2 */ public static ResettableListIterator loopingListIterator(final List list) { if (list == null) { throw new NullPointerException("List must not be null"); } return new LoopingListIterator<>(list); } // org.w3c.dom.NodeList iterators //----------------------------------------------------------------------- /** * Gets an {@link Iterator} that wraps the specified {@link NodeList}. * The returned {@link Iterator} can be used for a single iteration. * * @param nodeList the node list to use, may not be null * @return a new, single use {@link Iterator} * @throws NullPointerException if nodeList is null * @since 4.0 */ public static NodeListIterator nodeListIterator(final NodeList nodeList) { if (nodeList == null) { throw new NullPointerException("NodeList must not be null"); } return new NodeListIterator(nodeList); } /** * Gets an {@link Iterator} that wraps the specified node's childNodes. * The returned {@link Iterator} can be used for a single iteration. *

* Convenience method, allows easy iteration over NodeLists: *

     *   Iterator<Node> iterator = IteratorUtils.nodeListIterator(node);
     *   for(Node childNode : IteratorUtils.asIterable(iterator)) {
     *     ...
     *   }
     * 
* * @param node the node to use, may not be null * @return a new, single use {@link Iterator} * @throws NullPointerException if node is null * @since 4.0 */ public static NodeListIterator nodeListIterator(final Node node) { if (node == null) { throw new NullPointerException("Node must not be null"); } return new NodeListIterator(node); } // Peeking //----------------------------------------------------------------------- /** * Gets an iterator that supports one-element lookahead. * * @param the element type * @param iterator the iterator to decorate, not null * @return a peeking iterator * @throws NullPointerException if the iterator is null * @since 4.0 */ public static Iterator peekingIterator(final Iterator iterator) { return PeekingIterator.peekingIterator(iterator); } // Pushback //----------------------------------------------------------------------- /** * Gets an iterator that supports pushback of elements. * * @param the element type * @param iterator the iterator to decorate, not null * @return a pushback iterator * @throws NullPointerException if the iterator is null * @since 4.0 */ public static Iterator pushbackIterator(final Iterator iterator) { return PushbackIterator.pushbackIterator(iterator); } // Skipping //----------------------------------------------------------------------- /** * Decorates the specified iterator to skip the first N elements. * * @param the element type * @param iterator the iterator to decorate * @param offset the first number of elements to skip * @return a new skipping iterator * @throws NullPointerException if the iterator is null * @throws IllegalArgumentException if offset is negative * @since 4.1 */ public static SkippingIterator skippingIterator(final Iterator iterator, final long offset) { return new SkippingIterator<>(iterator, offset); } // Zipping //----------------------------------------------------------------------- /** * Returns an iterator that interleaves elements from the decorated iterators. * * @param the element type * @param a the first iterator to interleave * @param b the second iterator to interleave * @return an iterator, interleaving the decorated iterators * @throws NullPointerException if any iterator is null * @since 4.1 */ public static ZippingIterator zippingIterator(final Iterator a, final Iterator b) { return new ZippingIterator<>(a, b); } /** * Returns an iterator that interleaves elements from the decorated iterators. * * @param the element type * @param a the first iterator to interleave * @param b the second iterator to interleave * @param c the third iterator to interleave * @return an iterator, interleaving the decorated iterators * @throws NullPointerException if any iterator is null * @since 4.1 */ public static ZippingIterator zippingIterator(final Iterator a, final Iterator b, final Iterator c) { return new ZippingIterator<>(a, b, c); } /** * Returns an iterator that interleaves elements from the decorated iterators. * * @param the element type * @param iterators the array of iterators to interleave * @return an iterator, interleaving the decorated iterators * @throws NullPointerException if any iterator is null * @since 4.1 */ public static ZippingIterator zippingIterator(final Iterator... iterators) { return new ZippingIterator<>(iterators); } // Views //----------------------------------------------------------------------- /** * Gets an iterator that provides an iterator view of the given enumeration. * * @param the element type * @param enumeration the enumeration to use, may not be null * @return a new iterator * @throws NullPointerException if enumeration is null */ public static Iterator asIterator(final Enumeration enumeration) { if (enumeration == null) { throw new NullPointerException("Enumeration must not be null"); } return new EnumerationIterator<>(enumeration); } /** * Gets an iterator that provides an iterator view of the given enumeration * that will remove elements from the specified collection. * * @param the element type * @param enumeration the enumeration to use, may not be null * @param removeCollection the collection to remove elements from, may not be null * @return a new iterator * @throws NullPointerException if enumeration or removeCollection is null */ public static Iterator asIterator(final Enumeration enumeration, final Collection removeCollection) { if (enumeration == null) { throw new NullPointerException("Enumeration must not be null"); } if (removeCollection == null) { throw new NullPointerException("Collection must not be null"); } return new EnumerationIterator<>(enumeration, removeCollection); } /** * Gets an enumeration that wraps an iterator. * * @param the element type * @param iterator the iterator to use, may not be null * @return a new enumeration * @throws NullPointerException if iterator is null */ public static Enumeration asEnumeration(final Iterator iterator) { if (iterator == null) { throw new NullPointerException("Iterator must not be null"); } return new IteratorEnumeration<>(iterator); } /** * Gets an {@link Iterable} that wraps an iterator. The returned {@link Iterable} can be * used for a single iteration. * * @param the element type * @param iterator the iterator to use, may not be null * @return a new, single use {@link Iterable} * @throws NullPointerException if iterator is null */ public static Iterable asIterable(final Iterator iterator) { if (iterator == null) { throw new NullPointerException("Iterator must not be null"); } return new IteratorIterable<>(iterator, false); } /** * Gets an iterable that wraps an iterator. The returned iterable can be * used for multiple iterations. * * @param the element type * @param iterator the iterator to use, may not be null * @return a new, multiple use iterable * @throws NullPointerException if iterator is null */ public static Iterable asMultipleUseIterable(final Iterator iterator) { if (iterator == null) { throw new NullPointerException("Iterator must not be null"); } return new IteratorIterable<>(iterator, true); } /** * Gets a list iterator based on a simple iterator. *

* As the wrapped Iterator is traversed, a LinkedList of its values is * cached, permitting all required operations of ListIterator. * * @param the element type * @param iterator the iterator to use, may not be null * @return a new iterator * @throws NullPointerException if iterator parameter is null */ public static ListIterator toListIterator(final Iterator iterator) { if (iterator == null) { throw new NullPointerException("Iterator must not be null"); } return new ListIteratorWrapper<>(iterator); } /** * Gets an array based on an iterator. *

* As the wrapped Iterator is traversed, an ArrayList of its values is * created. At the end, this is converted to an array. * * @param iterator the iterator to use, not null * @return an array of the iterator contents * @throws NullPointerException if iterator parameter is null */ public static Object[] toArray(final Iterator iterator) { if (iterator == null) { throw new NullPointerException("Iterator must not be null"); } final List list = toList(iterator, 100); return list.toArray(); } /** * Gets an array based on an iterator. *

* As the wrapped Iterator is traversed, an ArrayList of its values is * created. At the end, this is converted to an array. * * @param the element type * @param iterator the iterator to use, not null * @param arrayClass the class of array to create * @return an array of the iterator contents * @throws NullPointerException if iterator parameter or arrayClass is null * @throws ArrayStoreException if the arrayClass is invalid */ public static E[] toArray(final Iterator iterator, final Class arrayClass) { if (iterator == null) { throw new NullPointerException("Iterator must not be null"); } if (arrayClass == null) { throw new NullPointerException("Array class must not be null"); } final List list = toList(iterator, 100); @SuppressWarnings("unchecked") final E[] array = (E[]) Array.newInstance(arrayClass, list.size()); return list.toArray(array); } /** * Gets a list based on an iterator. *

* As the wrapped Iterator is traversed, an ArrayList of its values is * created. At the end, the list is returned. * * @param the element type * @param iterator the iterator to use, not null * @return a list of the iterator contents * @throws NullPointerException if iterator parameter is null */ public static List toList(final Iterator iterator) { return toList(iterator, 10); } /** * Gets a list based on an iterator. *

* As the wrapped Iterator is traversed, an ArrayList of its values is * created. At the end, the list is returned. * * @param the element type * @param iterator the iterator to use, not null * @param estimatedSize the initial size of the ArrayList * @return a list of the iterator contents * @throws NullPointerException if iterator parameter is null * @throws IllegalArgumentException if the size is less than 1 */ public static List toList(final Iterator iterator, final int estimatedSize) { if (iterator == null) { throw new NullPointerException("Iterator must not be null"); } if (estimatedSize < 1) { throw new IllegalArgumentException("Estimated size must be greater than 0"); } final List list = new ArrayList<>(estimatedSize); while (iterator.hasNext()) { list.add(iterator.next()); } return list; } /** * Gets a suitable Iterator for the given object. *

* This method can handle objects as follows *

    *
  • null - empty iterator *
  • Iterator - returned directly *
  • Enumeration - wrapped *
  • Collection - iterator from collection returned *
  • Map - values iterator returned *
  • Dictionary - values (elements) enumeration returned as iterator *
  • array - iterator over array returned *
  • object with iterator() public method accessed by reflection *
  • object - singleton iterator *
  • NodeList - iterator over the list *
  • Node - iterator over the child nodes *
* * @param obj the object to convert to an iterator * @return a suitable iterator, never null */ public static Iterator getIterator(final Object obj) { if (obj == null) { return emptyIterator(); } if (obj instanceof Iterator) { return (Iterator) obj; } if (obj instanceof Iterable) { return ((Iterable) obj).iterator(); } if (obj instanceof Object[]) { return new ObjectArrayIterator<>((Object[]) obj); } if (obj instanceof Enumeration) { return new EnumerationIterator<>((Enumeration) obj); } if (obj instanceof Map) { return ((Map) obj).values().iterator(); } if (obj instanceof NodeList) { return new NodeListIterator((NodeList) obj); } if (obj instanceof Node) { return new NodeListIterator((Node) obj); } if (obj instanceof Dictionary) { return new EnumerationIterator<>(((Dictionary) obj).elements()); } else if (obj.getClass().isArray()) { return new ArrayIterator<>(obj); } try { final Method method = obj.getClass().getMethod("iterator", (Class[]) null); if (Iterator.class.isAssignableFrom(method.getReturnType())) { final Iterator it = (Iterator) method.invoke(obj, (Object[]) null); if (it != null) { return it; } } } catch (final RuntimeException e) { // NOPMD // ignore } catch (final NoSuchMethodException e) { // NOPMD // ignore } catch (final IllegalAccessException e) { // NOPMD // ignore } catch (final InvocationTargetException e) { // NOPMD // ignore } return singletonIterator(obj); } // Utility methods //----------------------------------------------------------------------- /** * Applies the closure to each element of the provided iterator. * * @param the element type * @param iterator the iterator to use, may be null * @param closure the closure to apply to each element, may not be null * @throws NullPointerException if closure is null * @since 4.1 */ public static void forEach(final Iterator iterator, final Closure closure) { if (closure == null) { throw new NullPointerException("Closure must not be null"); } if (iterator != null) { while (iterator.hasNext()) { final E element = iterator.next(); closure.execute(element); } } } /** * Executes the given closure on each but the last element in the iterator. *

* If the input iterator is null no change is made. * * @param the type of object the {@link Iterator} contains * @param iterator the iterator to get the input from, may be null * @param closure the closure to perform, may not be null * @return the last element in the iterator, or null if iterator is null or empty * @throws NullPointerException if closure is null * @since 4.1 */ public static E forEachButLast(final Iterator iterator, final Closure closure) { if (closure == null) { throw new NullPointerException("Closure must not be null."); } if (iterator != null) { while (iterator.hasNext()) { final E element = iterator.next(); if (iterator.hasNext()) { closure.execute(element); } else { return element; } } } return null; } /** * Finds the first element in the given iterator which matches the given predicate. *

* A null or empty iterator returns null. * * @param the element type * @param iterator the iterator to search, may be null * @param predicate the predicate to use, may not be null * @return the first element of the iterator which matches the predicate or null if none could be found * @throws NullPointerException if predicate is null * @since 4.1 */ public static E find(final Iterator iterator, final Predicate predicate) { if (predicate == null) { throw new NullPointerException("Predicate must not be null"); } if (iterator != null) { while (iterator.hasNext()) { final E element = iterator.next(); if (predicate.evaluate(element)) { return element; } } } return null; } /** * Returns the index of the first element in the specified iterator that * matches the given predicate. *

* A null or empty iterator returns -1. * * @param the element type * @param iterator the iterator to search, may be null * @param predicate the predicate to use, may not be null * @return the index of the first element which matches the predicate or -1 if none matches * @throws NullPointerException if predicate is null * @since 4.1 */ public static int indexOf(final Iterator iterator, final Predicate predicate) { if (predicate == null) { throw new NullPointerException("Predicate must not be null"); } if (iterator != null) { for(int index = 0; iterator.hasNext(); index++) { final E element = iterator.next(); if (predicate.evaluate(element)) { return index; } } } return -1; } /** * Answers true if a predicate is true for any element of the iterator. *

* A null or empty iterator returns false. * * @param the type of object the {@link Iterator} contains * @param iterator the {@link Iterator} to use, may be null * @param predicate the predicate to use, may not be null * @return true if any element of the collection matches the predicate, false otherwise * @throws NullPointerException if predicate is null * @since 4.1 */ public static boolean matchesAny(final Iterator iterator, final Predicate predicate) { return indexOf(iterator, predicate) != -1; } /** * Answers true if a predicate is true for every element of an iterator. *

* A null or empty iterator returns true. * * @param the type of object the {@link Iterator} contains * @param iterator the {@link Iterator} to use, may be null * @param predicate the predicate to use, may not be null * @return true if every element of the collection matches the predicate or if the * collection is empty, false otherwise * @throws NullPointerException if predicate is null * @since 4.1 */ public static boolean matchesAll(final Iterator iterator, final Predicate predicate) { if (predicate == null) { throw new NullPointerException("Predicate must not be null"); } if (iterator != null) { while (iterator.hasNext()) { final E element = iterator.next(); if (!predicate.evaluate(element)) { return false; } } } return true; } /** * Checks if the given iterator is empty. *

* A null or empty iterator returns true. * * @param iterator the {@link Iterator} to use, may be null * @return true if the iterator is exhausted or null, false otherwise * @since 4.1 */ public static boolean isEmpty(final Iterator iterator) { return iterator == null || !iterator.hasNext(); } /** * Checks if the object is contained in the given iterator. *

* A null or empty iterator returns false. * * @param the type of object the {@link Iterator} contains * @param iterator the iterator to check, may be null * @param object the object to check * @return true if the object is contained in the iterator, false otherwise * @since 4.1 */ public static boolean contains(final Iterator iterator, final Object object) { return matchesAny(iterator, EqualPredicate.equalPredicate(object)); } /** * Returns the index-th value in {@link Iterator}, throwing * IndexOutOfBoundsException if there is no such element. *

* The Iterator is advanced to index (or to the end, if * index exceeds the number of entries) as a side effect of this method. * * @param the type of object in the {@link Iterator} * @param iterator the iterator to get a value from * @param index the index to get * @return the object at the specified index * @throws IndexOutOfBoundsException if the index is invalid * @since 4.1 */ public static E get(final Iterator iterator, final int index) { int i = index; CollectionUtils.checkIndexBounds(i); while (iterator.hasNext()) { i--; if (i == -1) { return iterator.next(); } iterator.next(); } throw new IndexOutOfBoundsException("Entry does not exist: " + i); } /** * Shortcut for {@code get(iterator, 0)}. *

* Returns the first value in {@link Iterator}, throwing * IndexOutOfBoundsException if there is no such element. *

*

* The Iterator is advanced to 0 (or to the end, if * 0 exceeds the number of entries) as a side effect of this method. *

* @param the type of object in the {@link Iterator} * @param iterator the iterator to get a value from * @return the first object * @throws IndexOutOfBoundsException if the request is invalid * @since 4.2 */ public static E first(final Iterator iterator) { return get(iterator, 0); } /** * Returns the number of elements contained in the given iterator. *

* A null or empty iterator returns {@code 0}. * * @param iterator the iterator to check, may be null * @return the number of elements contained in the iterator * @since 4.1 */ public static int size(final Iterator iterator) { int size = 0; if (iterator != null) { while (iterator.hasNext()) { iterator.next(); size++; } } return size; } /** * Returns a string representation of the elements of the specified iterator. *

* The string representation consists of a list of the iterator's elements, * enclosed in square brackets ({@code "[]"}). Adjacent elements are separated * by the characters {@code ", "} (a comma followed by a space). Elements are * converted to strings as by {@code String.valueOf(Object)}. * * @param the element type * @param iterator the iterator to convert to a string, may be null * @return a string representation of {@code iterator} * @since 4.1 */ public static String toString(final Iterator iterator) { return toString(iterator, TransformerUtils.stringValueTransformer(), DEFAULT_TOSTRING_DELIMITER, DEFAULT_TOSTRING_PREFIX, DEFAULT_TOSTRING_SUFFIX); } /** * Returns a string representation of the elements of the specified iterator. *

* The string representation consists of a list of the iterable's elements, * enclosed in square brackets ({@code "[]"}). Adjacent elements are separated * by the characters {@code ", "} (a comma followed by a space). Elements are * converted to strings as by using the provided {@code transformer}. * * @param the element type * @param iterator the iterator to convert to a string, may be null * @param transformer the transformer used to get a string representation of an element * @return a string representation of {@code iterator} * @throws NullPointerException if {@code transformer} is null * @since 4.1 */ public static String toString(final Iterator iterator, final Transformer transformer) { return toString(iterator, transformer, DEFAULT_TOSTRING_DELIMITER, DEFAULT_TOSTRING_PREFIX, DEFAULT_TOSTRING_SUFFIX); } /** * Returns a string representation of the elements of the specified iterator. *

* The string representation consists of a list of the iterator's elements, * enclosed by the provided {@code prefix} and {@code suffix}. Adjacent elements * are separated by the provided {@code delimiter}. Elements are converted to * strings as by using the provided {@code transformer}. * * @param the element type * @param iterator the iterator to convert to a string, may be null * @param transformer the transformer used to get a string representation of an element * @param delimiter the string to delimit elements * @param prefix the prefix, prepended to the string representation * @param suffix the suffix, appended to the string representation * @return a string representation of {@code iterator} * @throws NullPointerException if either transformer, delimiter, prefix or suffix is null * @since 4.1 */ public static String toString(final Iterator iterator, final Transformer transformer, final String delimiter, final String prefix, final String suffix) { if (transformer == null) { throw new NullPointerException("transformer may not be null"); } if (delimiter == null) { throw new NullPointerException("delimiter may not be null"); } if (prefix == null) { throw new NullPointerException("prefix may not be null"); } if (suffix == null) { throw new NullPointerException("suffix may not be null"); } final StringBuilder stringBuilder = new StringBuilder(prefix); if (iterator != null) { while (iterator.hasNext()) { final E element = iterator.next(); stringBuilder.append(transformer.transform(element)); stringBuilder.append(delimiter); } if(stringBuilder.length() > prefix.length()) { stringBuilder.setLength(stringBuilder.length() - delimiter.length()); } } stringBuilder.append(suffix); return stringBuilder.toString(); } }





© 2015 - 2024 Weber Informatics LLC | Privacy Policy