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/* Generic definitions */
/* Assertions (useful to generate conditional code) */
/* Current type and class (and size, if applicable) */
/* Value methods */
/* Interfaces (keys) */
/* Interfaces (values) */
/* Abstract implementations (keys) */
/* Abstract implementations (values) */
/* Static containers (keys) */
/* Static containers (values) */
/* Implementations */
/* Synchronized wrappers */
/* Unmodifiable wrappers */
/* Other wrappers */
/* Methods (keys) */
/* Methods (values) */
/* Methods (keys/values) */
/* Methods that have special names depending on keys (but the special names depend on values) */
/* Equality */
/* Object/Reference-only definitions (keys) */
/* Object/Reference-only definitions (values) */
/*
* Copyright (C) 2002-2016 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 it.unimi.dsi.fastutil.objects;
import java.util.Iterator;
import java.util.ListIterator;
import java.util.NoSuchElementException;
/**
* A class providing static methods and objects that do useful things with
* type-specific iterators.
*
* @see Iterator
*/
public class ObjectIterators {
private ObjectIterators() {
}
/**
* A class returning no elements and a type-specific iterator interface.
*
*
* This class may be useful to implement your own in case you subclass a
* type-specific iterator.
*/
public static class EmptyIterator extends AbstractObjectListIterator
implements
java.io.Serializable,
Cloneable {
private static final long serialVersionUID = -7046029254386353129L;
protected EmptyIterator() {
}
public boolean hasNext() {
return false;
}
public boolean hasPrevious() {
return false;
}
public K next() {
throw new NoSuchElementException();
}
public K previous() {
throw new NoSuchElementException();
}
public int nextIndex() {
return 0;
}
public int previousIndex() {
return -1;
}
public int skip(int n) {
return 0;
};
public int back(int n) {
return 0;
};
public Object clone() {
return EMPTY_ITERATOR;
}
private Object readResolve() {
return EMPTY_ITERATOR;
}
}
/**
* An empty iterator (immutable). It is serializable and cloneable.
*
*
* The class of this objects represent an abstract empty iterator that can
* iterate as a type-specific (list) iterator.
*/
@SuppressWarnings("rawtypes")
public final static EmptyIterator EMPTY_ITERATOR = new EmptyIterator();
/** An iterator returning a single element. */
private static class SingletonIterator
extends
AbstractObjectListIterator {
private final K element;
private int curr;
public SingletonIterator(final K element) {
this.element = element;
}
public boolean hasNext() {
return curr == 0;
}
public boolean hasPrevious() {
return curr == 1;
}
public K next() {
if (!hasNext())
throw new NoSuchElementException();
curr = 1;
return element;
}
public K previous() {
if (!hasPrevious())
throw new NoSuchElementException();
curr = 0;
return element;
}
public int nextIndex() {
return curr;
}
public int previousIndex() {
return curr - 1;
}
}
/**
* Returns an iterator that iterates just over the given element.
*
* @param element
* the only element to be returned by a type-specific list
* iterator.
* @return an iterator that iterates just over element.
*/
public static ObjectListIterator singleton(final K element) {
return new SingletonIterator(element);
}
/** A class to wrap arrays in iterators. */
private static class ArrayIterator extends AbstractObjectListIterator {
private final K[] array;
private final int offset, length;
private int curr;
public ArrayIterator(final K[] array, final int offset, final int length) {
this.array = array;
this.offset = offset;
this.length = length;
}
public boolean hasNext() {
return curr < length;
}
public boolean hasPrevious() {
return curr > 0;
}
public K next() {
if (!hasNext())
throw new NoSuchElementException();
return array[offset + curr++];
}
public K previous() {
if (!hasPrevious())
throw new NoSuchElementException();
return array[offset + --curr];
}
public int skip(int n) {
if (n <= length - curr) {
curr += n;
return n;
}
n = length - curr;
curr = length;
return n;
}
public int back(int n) {
if (n <= curr) {
curr -= n;
return n;
}
n = curr;
curr = 0;
return n;
}
public int nextIndex() {
return curr;
}
public int previousIndex() {
return curr - 1;
}
}
/**
* Wraps the given part of an array into a type-specific list iterator.
*
*
* The type-specific list iterator returned by this method will iterate
* length times, returning consecutive elements of the given
* array starting from the one with index offset.
*
* @param array
* an array to wrap into a type-specific list iterator.
* @param offset
* the first element of the array to be returned.
* @param length
* the number of elements to return.
* @return an iterator that will return length elements of
* array starting at position offset.
*/
public static ObjectListIterator wrap(final K[] array,
final int offset, final int length) {
ObjectArrays.ensureOffsetLength(array, offset, length);
return new ArrayIterator(array, offset, length);
}
/**
* Wraps the given array into a type-specific list iterator.
*
*
* The type-specific list iterator returned by this method will return all
* elements of the given array.
*
* @param array
* an array to wrap into a type-specific list iterator.
* @return an iterator that will the elements of array.
*/
public static ObjectListIterator wrap(final K[] array) {
return new ArrayIterator(array, 0, array.length);
}
/**
* Unwraps an iterator into an array starting at a given offset for a given
* number of elements.
*
*
* This method iterates over the given type-specific iterator and stores the
* elements returned, up to a maximum of length, in the given
* array starting at offset. The number of actually unwrapped
* elements is returned (it may be less than max if the
* iterator emits less than max elements).
*
* @param i
* a type-specific iterator.
* @param array
* an array to contain the output of the iterator.
* @param offset
* the first element of the array to be returned.
* @param max
* the maximum number of elements to unwrap.
* @return the number of elements unwrapped.
*/
public static int unwrap(final Iterator i,
final K array[], int offset, final int max) {
if (max < 0)
throw new IllegalArgumentException(
"The maximum number of elements (" + max + ") is negative");
if (offset < 0 || offset + max > array.length)
throw new IllegalArgumentException();
int j = max;
while (j-- != 0 && i.hasNext())
array[offset++] = i.next();
return max - j - 1;
}
/**
* Unwraps an iterator into an array.
*
*
* This method iterates over the given type-specific iterator and stores the
* elements returned in the given array. The iteration will stop when the
* iterator has no more elements or when the end of the array has been
* reached.
*
* @param i
* a type-specific iterator.
* @param array
* an array to contain the output of the iterator.
* @return the number of elements unwrapped.
*/
public static int unwrap(final Iterator i, final K array[]) {
return unwrap(i, array, 0, array.length);
}
/**
* Unwraps an iterator, returning an array, with a limit on the number of
* elements.
*
*
* This method iterates over the given type-specific iterator and returns an
* array containing the elements returned by the iterator. At most
* max elements will be returned.
*
* @param i
* a type-specific iterator.
* @param max
* the maximum number of elements to be unwrapped.
* @return an array containing the elements returned by the iterator (at
* most max).
*/
@SuppressWarnings("unchecked")
public static K[] unwrap(final Iterator i, int max) {
if (max < 0)
throw new IllegalArgumentException(
"The maximum number of elements (" + max + ") is negative");
K array[] = (K[]) new Object[16];
int j = 0;
while (max-- != 0 && i.hasNext()) {
if (j == array.length)
array = ObjectArrays.grow(array, j + 1);
array[j++] = i.next();
}
return ObjectArrays.trim(array, j);
}
/**
* Unwraps an iterator, returning an array.
*
*
* This method iterates over the given type-specific iterator and returns an
* array containing the elements returned by the iterator.
*
* @param i
* a type-specific iterator.
* @return an array containing the elements returned by the iterator.
*/
public static K[] unwrap(final Iterator i) {
return unwrap(i, Integer.MAX_VALUE);
}
/**
* Unwraps an iterator into a type-specific collection, with a limit on the
* number of elements.
*
*
* This method iterates over the given type-specific iterator and stores the
* elements returned, up to a maximum of max, in the given
* type-specific collection. The number of actually unwrapped elements is
* returned (it may be less than max if the iterator emits less
* than max elements).
*
* @param i
* a type-specific iterator.
* @param c
* a type-specific collection array to contain the output of the
* iterator.
* @param max
* the maximum number of elements to unwrap.
* @return the number of elements unwrapped. Note that this is the number of
* elements returned by the iterator, which is not necessarily the
* number of elements that have been added to the collection
* (because of duplicates).
*/
public static int unwrap(final Iterator i,
final ObjectCollection c, final int max) {
if (max < 0)
throw new IllegalArgumentException(
"The maximum number of elements (" + max + ") is negative");
int j = max;
while (j-- != 0 && i.hasNext())
c.add(i.next());
return max - j - 1;
}
/**
* Unwraps an iterator into a type-specific collection.
*
*
* This method iterates over the given type-specific iterator and stores the
* elements returned in the given type-specific collection. The returned
* count on the number unwrapped elements is a long, so that it will work
* also with very large collections.
*
* @param i
* a type-specific iterator.
* @param c
* a type-specific collection to contain the output of the
* iterator.
* @return the number of elements unwrapped. Note that this is the number of
* elements returned by the iterator, which is not necessarily the
* number of elements that have been added to the collection
* (because of duplicates).
*/
public static long unwrap(final Iterator i,
final ObjectCollection c) {
long n = 0;
while (i.hasNext()) {
c.add(i.next());
n++;
}
return n;
}
/**
* Pours an iterator into a type-specific collection, with a limit on the
* number of elements.
*
*
* This method iterates over the given type-specific iterator and adds the
* returned elements to the given collection (up to max).
*
* @param i
* a type-specific iterator.
* @param s
* a type-specific collection.
* @param max
* the maximum number of elements to be poured.
* @return the number of elements poured. Note that this is the number of
* elements returned by the iterator, which is not necessarily the
* number of elements that have been added to the collection
* (because of duplicates).
*/
public static int pour(final Iterator i,
final ObjectCollection s, final int max) {
if (max < 0)
throw new IllegalArgumentException(
"The maximum number of elements (" + max + ") is negative");
int j = max;
while (j-- != 0 && i.hasNext())
s.add(i.next());
return max - j - 1;
}
/**
* Pours an iterator into a type-specific collection.
*
*
* This method iterates over the given type-specific iterator and adds the
* returned elements to the given collection.
*
* @param i
* a type-specific iterator.
* @param s
* a type-specific collection.
* @return the number of elements poured. Note that this is the number of
* elements returned by the iterator, which is not necessarily the
* number of elements that have been added to the collection
* (because of duplicates).
*/
public static int pour(final Iterator i,
final ObjectCollection s) {
return pour(i, s, Integer.MAX_VALUE);
}
/**
* Pours an iterator, returning a type-specific list, with a limit on the
* number of elements.
*
*
* This method iterates over the given type-specific iterator and returns a
* type-specific list containing the returned elements (up to
* max). Iteration on the returned list is guaranteed to
* produce the elements in the same order in which they appeared in the
* iterator.
*
*
* @param i
* a type-specific iterator.
* @param max
* the maximum number of elements to be poured.
* @return a type-specific list containing the returned elements, up to
* max.
*/
public static ObjectList pour(final Iterator i, int max) {
final ObjectArrayList l = new ObjectArrayList();
pour(i, l, max);
l.trim();
return l;
}
/**
* Pours an iterator, returning a type-specific list.
*
*
* This method iterates over the given type-specific iterator and returns a
* list containing the returned elements. Iteration on the returned list is
* guaranteed to produce the elements in the same order in which they
* appeared in the iterator.
*
* @param i
* a type-specific iterator.
* @return a type-specific list containing the returned elements.
*/
public static ObjectList pour(final Iterator i) {
return pour(i, Integer.MAX_VALUE);
}
private static class IteratorWrapper extends AbstractObjectIterator {
final Iterator i;
public IteratorWrapper(final Iterator i) {
this.i = i;
}
public boolean hasNext() {
return i.hasNext();
}
public void remove() {
i.remove();
}
public K next() {
return (i.next());
}
}
/**
* Wraps a standard iterator into a type-specific iterator.
*
*
* This method wraps a standard iterator into a type-specific one which will
* handle the type conversions for you. Of course, any attempt to wrap an
* iterator returning the instances of the wrong class will generate a
* {@link ClassCastException}. The returned iterator is backed by
* i: changes to one of the iterators will affect the other,
* too.
*
*
* If i is already type-specific, it will returned and no new
* object will be generated.
*
* @param i
* an iterator.
* @return a type-specific iterator backed by i.
*/
public static ObjectIterator asObjectIterator(final Iterator i) {
if (i instanceof ObjectIterator)
return (ObjectIterator) i;
return new IteratorWrapper(i);
}
private static class ListIteratorWrapper
extends
AbstractObjectListIterator {
final ListIterator i;
public ListIteratorWrapper(final ListIterator i) {
this.i = i;
}
public boolean hasNext() {
return i.hasNext();
}
public boolean hasPrevious() {
return i.hasPrevious();
}
public int nextIndex() {
return i.nextIndex();
}
public int previousIndex() {
return i.previousIndex();
}
public void set(K k) {
i.set((k));
}
public void add(K k) {
i.add((k));
}
public void remove() {
i.remove();
}
public K next() {
return (i.next());
}
public K previous() {
return (i.previous());
}
}
/**
* Wraps a standard list iterator into a type-specific list iterator.
*
*
* This method wraps a standard list iterator into a type-specific one which
* will handle the type conversions for you. Of course, any attempt to wrap
* an iterator returning the instances of the wrong class will generate a
* {@link ClassCastException}. The returned iterator is backed by
* i: changes to one of the iterators will affect the other,
* too.
*
*
* If i is already type-specific, it will returned and no new
* object will be generated.
*
* @param i
* a list iterator.
* @return a type-specific list iterator backed by i.
*/
public static ObjectListIterator asObjectIterator(
final ListIterator i) {
if (i instanceof ObjectListIterator)
return (ObjectListIterator) i;
return new ListIteratorWrapper(i);
}
private static class IteratorConcatenator
extends
AbstractObjectIterator {
final ObjectIterator a[];
int offset, length, lastOffset = -1;
public IteratorConcatenator(final ObjectIterator a[],
int offset, int length) {
this.a = a;
this.offset = offset;
this.length = length;
advance();
}
private void advance() {
while (length != 0) {
if (a[offset].hasNext())
break;
length--;
offset++;
}
return;
}
public boolean hasNext() {
return length > 0;
}
public K next() {
if (!hasNext())
throw new NoSuchElementException();
K next = a[lastOffset = offset].next();
advance();
return next;
}
public void remove() {
if (lastOffset == -1)
throw new IllegalStateException();
a[lastOffset].remove();
}
public int skip(int n) {
lastOffset = -1;
int skipped = 0;
while (skipped < n && length != 0) {
skipped += a[offset].skip(n - skipped);
if (a[offset].hasNext())
break;
length--;
offset++;
}
return skipped;
}
}
/**
* Concatenates all iterators contained in an array.
*
*
* This method returns an iterator that will enumerate in order the elements
* returned by all iterators contained in the given array.
*
* @param a
* an array of iterators.
* @return an iterator obtained by concatenation.
*/
public static ObjectIterator concat(
final ObjectIterator a[]) {
return concat(a, 0, a.length);
}
/**
* Concatenates a sequence of iterators contained in an array.
*
*
* This method returns an iterator that will enumerate in order the elements
* returned by a[ offset ], then those returned by
* a[ offset + 1 ], and so on up to
* a[ offset + length - 1 ].
*
* @param a
* an array of iterators.
* @param offset
* the index of the first iterator to concatenate.
* @param length
* the number of iterators to concatenate.
* @return an iterator obtained by concatenation of length
* elements of a starting at offset.
*/
public static ObjectIterator concat(
final ObjectIterator a[], final int offset,
final int length) {
return new IteratorConcatenator(a, offset, length);
}
/** An unmodifiable wrapper class for iterators. */
public static class UnmodifiableIterator
extends
AbstractObjectIterator {
final protected ObjectIterator i;
public UnmodifiableIterator(final ObjectIterator i) {
this.i = i;
}
public boolean hasNext() {
return i.hasNext();
}
public K next() {
return i.next();
}
}
/**
* Returns an unmodifiable iterator backed by the specified iterator.
*
* @param i
* the iterator to be wrapped in an unmodifiable iterator.
* @return an unmodifiable view of the specified iterator.
*/
public static ObjectIterator unmodifiable(final ObjectIterator i) {
return new UnmodifiableIterator(i);
}
/** An unmodifiable wrapper class for bidirectional iterators. */
public static class UnmodifiableBidirectionalIterator
extends
AbstractObjectBidirectionalIterator {
final protected ObjectBidirectionalIterator i;
public UnmodifiableBidirectionalIterator(
final ObjectBidirectionalIterator i) {
this.i = i;
}
public boolean hasNext() {
return i.hasNext();
}
public boolean hasPrevious() {
return i.hasPrevious();
}
public K next() {
return i.next();
}
public K previous() {
return i.previous();
}
}
/**
* Returns an unmodifiable bidirectional iterator backed by the specified
* bidirectional iterator.
*
* @param i
* the bidirectional iterator to be wrapped in an unmodifiable
* bidirectional iterator.
* @return an unmodifiable view of the specified bidirectional iterator.
*/
public static ObjectBidirectionalIterator unmodifiable(
final ObjectBidirectionalIterator i) {
return new UnmodifiableBidirectionalIterator(i);
}
/** An unmodifiable wrapper class for list iterators. */
public static class UnmodifiableListIterator
extends
AbstractObjectListIterator {
final protected ObjectListIterator i;
public UnmodifiableListIterator(final ObjectListIterator i) {
this.i = i;
}
public boolean hasNext() {
return i.hasNext();
}
public boolean hasPrevious() {
return i.hasPrevious();
}
public K next() {
return i.next();
}
public K previous() {
return i.previous();
}
public int nextIndex() {
return i.nextIndex();
}
public int previousIndex() {
return i.previousIndex();
}
}
/**
* Returns an unmodifiable list iterator backed by the specified list
* iterator.
*
* @param i
* the list iterator to be wrapped in an unmodifiable list
* iterator.
* @return an unmodifiable view of the specified list iterator.
*/
public static ObjectListIterator unmodifiable(
final ObjectListIterator i) {
return new UnmodifiableListIterator(i);
}
}