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 * DO NOT ALTER OR REMOVE COPYRIGHT NOTICES OR THIS FILE HEADER.
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 * published by the Free Software Foundation.  Oracle designates this
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 * by Oracle in the LICENSE file that accompanied this code.
 *
 * This code is distributed in the hope that it will be useful, but WITHOUT
 * ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or
 * FITNESS FOR A PARTICULAR PURPOSE.  See the GNU General Public License
 * version 2 for more details (a copy is included in the LICENSE file that
 * accompanied this code).
 *
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package com.xenoamess.commons.primitive.collections;

import com.xenoamess.commons.primitive.Primitive;
import com.xenoamess.commons.primitive.iterators.FloatIterator;

import java.util.Arrays;
import java.util.Collection;
import java.util.Iterator;
import java.util.Objects;

/**
 * This class provides a skeletal implementation of the {@code Collection}
 * interface, to minimize the effort required to implement this interface.
 * 

* To implement an unmodifiable collection, the programmer needs only to * extend this class and provide implementations for the {@code iterator} and * {@code size} methods. (The iterator returned by the {@code iterator} * method must implement {@code hasNext} and {@code next}.) *

* To implement a modifiable collection, the programmer must additionally * override this class's {@code add} method (which otherwise throws an * {@code UnsupportedOperationException}), and the iterator returned by the * {@code iterator} method must additionally implement its {@code remove} * method. *

* The programmer should generally provide a void (no argument) and * {@code Collection} constructor, as per the recommendation in the * {@code Collection} interface specification. *

* The documentation for each non-abstract method in this class describes its * implementation in detail. Each of these methods may be overridden if * the collection being implemented admits a more efficient implementation. *

* This class is a member of the * * Java Collections Framework. * * @author Josh Bloch * @author Neal Gafter * @version 0.8.0 * @see Collection * @see java.util.AbstractCollection * @since 1.2 */ public interface AbstractFloatCollection extends FloatCollection, Primitive { // Query Operations /** * {@inheritDoc} *

* Returns an iterator over the elements contained in this collection. */ @Override FloatIterator iterator(); /** * {@inheritDoc} */ @Override int size(); /** * {@inheritDoc} * * @implSpec This implementation returns {@code size() == 0}. */ @Override default boolean isEmpty() { return size() == 0; } /** * {@inheritDoc} * * @implSpec This implementation iterates over the elements in the collection, * checking each element in turn for equality with the specified element. */ @Override default boolean contains(Object o) { if (o == null) { return false; } if (!(o instanceof Float)) { return false; } return this.containsPrimitive((Float) o); } /** * {@inheritDoc} * * @implSpec This implementation iterates over the elements in the collection, * checking each element in turn for equality with the specified element. */ @Override default boolean containsPrimitive(float o) { FloatIterator it = iterator(); while (it.hasNext()) { if (o == it.nextPrimitive()) { return true; } } return false; } /** * {@inheritDoc} * * @implSpec This implementation returns an array containing all the elements * returned by this collection's iterator, in the same order, stored in * consecutive elements of the array, starting with index {@code 0}. * The length of the returned array is equal to the number of elements * returned by the iterator, even if the size of this collection changes * during iteration, as might happen if the collection permits * concurrent modification during iteration. The {@code size} method is * called only as an optimization hint; the correct result is returned * even if the iterator returns a different number of elements. * *

This method is equivalent to: * *

 {@code
     * List list = new ArrayList(size());
     * for (E e : this)
     *     list.add(e);
     * return list.toArray();
     * }
*/ @Override default Object[] toArray() { // Estimate size of array; be prepared to see more or fewer elements Object[] r = new Object[size()]; FloatIterator it = iterator(); for (int i = 0; i < r.length; i++) { if (!it.hasNext()) { // fewer elements than expected return Arrays.copyOf(r, i); } r[i] = it.next(); } return it.hasNext() ? finishToArray(r, it) : r; } /** * {@inheritDoc} * * @return an array of {@link float} objects. * @implSpec This implementation returns an array containing all the elements * returned by this collection's iterator, in the same order, stored in * consecutive elements of the array, starting with index {@code 0}. * The length of the returned array is equal to the number of elements * returned by the iterator, even if the size of this collection changes * during iteration, as might happen if the collection permits * concurrent modification during iteration. The {@code size} method is * called only as an optimization hint; the correct result is returned * even if the iterator returns a different number of elements. * *

This method is equivalent to: * *

 {@code
     * List list = new ArrayList(size());
     * for (E e : this)
     *     list.add(e);
     * return list.toArray();
     * }
*/ @Override default float[] toArrayPrimitive() { // Estimate size of array; be prepared to see more or fewer elements float[] r = new float[size()]; FloatIterator it = iterator(); for (int i = 0; i < r.length; i++) { if (!it.hasNext()) { // fewer elements than expected return Arrays.copyOf(r, i); } r[i] = it.nextPrimitive(); } return it.hasNext() ? finishToArrayPrimitive(r, it) : r; } /** * {@inheritDoc} * * @implSpec This implementation returns an array containing all the elements * returned by this collection's iterator in the same order, stored in * consecutive elements of the array, starting with index {@code 0}. * If the number of elements returned by the iterator is too large to * fit into the specified array, then the elements are returned in a * newly allocated array with length equal to the number of elements * returned by the iterator, even if the size of this collection * changes during iteration, as might happen if the collection permits * concurrent modification during iteration. The {@code size} method is * called only as an optimization hint; the correct result is returned * even if the iterator returns a different number of elements. * *

This method is equivalent to: * *

 {@code
     * List list = new ArrayList(size());
     * for (E e : this)
     *     list.add(e);
     * return list.toArray(a);
     * }
*/ @Override @SuppressWarnings("unchecked") default T[] toArray(T[] a) { // Estimate size of array; be prepared to see more or fewer elements int size = size(); T[] r = a.length >= size ? a : (T[]) java.lang.reflect.Array .newInstance(a.getClass().getComponentType(), size); FloatIterator it = iterator(); for (int i = 0; i < r.length; i++) { if (!it.hasNext()) { // fewer elements than expected if (a == r) { r[i] = null; // null-terminate } else if (a.length < i) { return Arrays.copyOf(r, i); } else { System.arraycopy(r, 0, a, 0, i); if (a.length > i) { a[i] = null; } } return a; } r[i] = (T) it.next(); } // more elements than expected return it.hasNext() ? finishToArray(r, it) : r; } /** * {@inheritDoc} * * @param a an array of {@link float} objects. * @return an array of {@link float} objects. * @throws java.lang.ArrayStoreException {@inheritDoc} * @throws java.lang.NullPointerException {@inheritDoc} * @implSpec This implementation returns an array containing all the elements * returned by this collection's iterator in the same order, stored in * consecutive elements of the array, starting with index {@code 0}. * If the number of elements returned by the iterator is too large to * fit into the specified array, then the elements are returned in a * newly allocated array with length equal to the number of elements * returned by the iterator, even if the size of this collection * changes during iteration, as might happen if the collection permits * concurrent modification during iteration. The {@code size} method is * called only as an optimization hint; the correct result is returned * even if the iterator returns a different number of elements. * *

This method is equivalent to: * *

 {@code
     * List list = new ArrayList(size());
     * for (E e : this)
     *     list.add(e);
     * return list.toArray(a);
     * }
*/ @Override default float[] toArrayPrimitive(float[] a) { // Estimate size of array; be prepared to see more or fewer elements int size = size(); float[] r = a.length >= size ? a : new float[size]; FloatIterator it = iterator(); for (int i = 0; i < r.length; i++) { if (!it.hasNext()) { // fewer elements than expected if (a == r) { r[i] = Primitive.FLOAT_DEFAULT; // null-terminate } else if (a.length < i) { return Arrays.copyOf(r, i); } else { System.arraycopy(r, 0, a, 0, i); if (a.length > i) { a[i] = Primitive.FLOAT_DEFAULT; } } return a; } r[i] = it.nextPrimitive(); } // more elements than expected return it.hasNext() ? finishToArrayPrimitive(r, it) : r; } /** * The maximum size of array to allocate. * Some VMs reserve some header words in an array. * Attempts to allocate larger arrays may result in * OutOfMemoryError: Requested array size exceeds VM limit */ int MAX_ARRAY_SIZE = Integer.MAX_VALUE - 8; /** * Reallocates the array being used within toArray when the iterator * returned more elements than expected, and finishes filling it from * the iterator. * * @param r the array, replete with previously stored elements * @param it the in-progress iterator over this collection * @param a T object. * @return array containing the elements in the given array, plus any * further elements returned by the iterator, trimmed to size */ @SuppressWarnings("unchecked") static T[] finishToArray(T[] r, Iterator it) { int i = r.length; while (it.hasNext()) { int cap = r.length; if (i == cap) { int newCap = cap + (cap >> 1) + 1; // overflow-conscious code if (newCap - MAX_ARRAY_SIZE > 0) { newCap = hugeCapacity(cap + 1); } r = Arrays.copyOf(r, newCap); } r[i++] = (T) it.next(); } // trim if overallocated return (i == r.length) ? r : Arrays.copyOf(r, i); } /** * Reallocates the array being used within toArray when the iterator * returned more elements than expected, and finishes filling it from * the iterator. * * @param r the array, replete with previously stored elements * @param it the in-progress iterator over this collection * @return array containing the elements in the given array, plus any * further elements returned by the iterator, trimmed to size */ static float[] finishToArrayPrimitive(float[] r, FloatIterator it) { int i = r.length; while (it.hasNext()) { int cap = r.length; if (i == cap) { int newCap = cap + (cap >> 1) + 1; // overflow-conscious code if (newCap - MAX_ARRAY_SIZE > 0) { newCap = hugeCapacity(cap + 1); } r = Arrays.copyOf(r, newCap); } r[i++] = it.nextPrimitive(); } // trim if overallocated return (i == r.length) ? r : Arrays.copyOf(r, i); } /** *

hugeCapacity.

* * @param minCapacity a int. * @return a int. */ static int hugeCapacity(int minCapacity) { if (minCapacity < 0) // overflow { throw new OutOfMemoryError ("Required array size too large"); } return (minCapacity > MAX_ARRAY_SIZE) ? Integer.MAX_VALUE : MAX_ARRAY_SIZE; } // Modification Operations /** * {@inheritDoc} * * @throws UnsupportedOperationException {@inheritDoc} * @throws ClassCastException {@inheritDoc} * @throws NullPointerException {@inheritDoc} * @implSpec This implementation iterates over the collection looking for the * specified element. If it finds the element, it removes the element * from the collection using the iterator's remove method. * *

Note that this implementation throws an * {@code UnsupportedOperationException} if the iterator returned by this * collection's iterator method does not implement the {@code remove} * method and this collection contains the specified object. */ @Override default boolean remove(Object o) { if (o == null) { return false; } if (!(o instanceof Float)) { return false; } return this.removeByContentPrimitive((Float) o); } /** * {@inheritDoc} * * @implSpec This implementation iterates over the collection looking for the * specified element. If it finds the element, it removes the element * from the collection using the iterator's remove method. * *

Note that this implementation throws an * {@code UnsupportedOperationException} if the iterator returned by this * collection's iterator method does not implement the {@code remove} * method and this collection contains the specified object. */ @Override default boolean removeByContentPrimitive(float o) { FloatIterator it = iterator(); while (it.hasNext()) { if (o == it.nextPrimitive()) { it.remove(); return true; } } return false; } // Bulk Operations /** * {@inheritDoc} * * @implSpec This implementation iterates over the specified collection, * checking each element returned by the iterator in turn to see * if it's contained in this collection. If all elements are so * contained {@code true} is returned, otherwise {@code false}. * @see #contains(Object) */ @Override default boolean containsAll(Collection c) { if (c instanceof FloatCollection) { FloatCollection cFloatCollection = (FloatCollection) c; FloatIterator cFloatCollectionIterator = cFloatCollection.iterator(); while (cFloatCollectionIterator.hasNext()) { if (!containsPrimitive(cFloatCollectionIterator.nextPrimitive())) { return false; } } } else { for (Object e : c) { if (!contains(e)) { return false; } } } return true; } /** * {@inheritDoc} * * @implSpec This implementation iterates over the specified collection, and adds * each object returned by the iterator to this collection, in turn. * *

Note that this implementation will throw an * {@code UnsupportedOperationException} unless {@code add} is * overridden (assuming the specified collection is non-empty). * @see #add(Float) */ @Override default boolean addAll(Collection c) { boolean modified = false; if (c instanceof FloatCollection) { FloatCollection cFloatCollection = (FloatCollection) c; FloatIterator cFloatCollectionIterator = cFloatCollection.iterator(); while (cFloatCollectionIterator.hasNext()) { if (add(cFloatCollectionIterator.nextPrimitive())) { modified = true; } } } else { for (Float e : c) { if (add(e)) { modified = true; } } } return modified; } /** * {@inheritDoc} * * @implSpec This implementation iterates over this collection, checking each * element returned by the iterator in turn to see if it's contained * in the specified collection. If it's so contained, it's removed from * this collection with the iterator's {@code remove} method. * *

Note that this implementation will throw an * {@code UnsupportedOperationException} if the iterator returned by the * {@code iterator} method does not implement the {@code remove} method * and this collection contains one or more elements in common with the * specified collection. * @see #remove(Object) * @see #contains(Object) */ @Override default boolean removeAll(Collection c) { Objects.requireNonNull(c); boolean modified = false; FloatIterator it = iterator(); if (c instanceof FloatCollection) { FloatCollection cFloatCollection = (FloatCollection) c; while (it.hasNext()) { if (cFloatCollection.containsPrimitive(it.nextPrimitive())) { it.remove(); modified = true; } } } else { while (it.hasNext()) { if (c.contains(it.next())) { it.remove(); modified = true; } } } return modified; } /** * {@inheritDoc} * * @implSpec This implementation iterates over this collection, checking each * element returned by the iterator in turn to see if it's contained * in the specified collection. If it's not so contained, it's removed * from this collection with the iterator's {@code remove} method. * *

Note that this implementation will throw an * {@code UnsupportedOperationException} if the iterator returned by the * {@code iterator} method does not implement the {@code remove} method * and this collection contains one or more elements not present in the * specified collection. * @see #remove(Object) * @see #contains(Object) */ @Override default boolean retainAll(Collection c) { Objects.requireNonNull(c); boolean modified = false; FloatIterator it = iterator(); if (c instanceof FloatCollection) { FloatCollection cFloatCollection = (FloatCollection) c; while (it.hasNext()) { if (!cFloatCollection.containsPrimitive(it.nextPrimitive())) { it.remove(); modified = true; } } } else { while (it.hasNext()) { if (!c.contains(it.next())) { it.remove(); modified = true; } } } return modified; } /** * {@inheritDoc} * * @implSpec This implementation iterates over this collection, removing each * element using the {@code Iterator.remove} operation. Most * implementations will probably choose to override this method for * efficiency. * *

Note that this implementation will throw an * {@code UnsupportedOperationException} if the iterator returned by this * collection's {@code iterator} method does not implement the * {@code remove} method and this collection is non-empty. */ @Override default void clear() { FloatIterator it = iterator(); while (it.hasNext()) { it.nextPrimitive(); it.remove(); } } // String conversion /** * Returns a string representation of this collection. The string * representation consists of a list of the collection's elements in the * order they are returned by its iterator, enclosed in square brackets * ({@code "[]"}). Adjacent elements are separated by the characters * {@code ", "} (comma and space). Elements are converted to strings as * by {@link java.lang.String#valueOf(Object)}. * * @param abstractFloatCollection a {@link com.xenoamess.commons.primitive.collections.AbstractFloatCollection} * object. * @return a string representation of this collection */ static String toString(AbstractFloatCollection abstractFloatCollection) { FloatIterator it = abstractFloatCollection.iterator(); if (!it.hasNext()) { return "[]"; } StringBuilder sb = new StringBuilder(); sb.append('['); for (; ; ) { float e = it.nextPrimitive(); sb.append(e); if (!it.hasNext()) { return sb.append(']').toString(); } sb.append(',').append(' '); } } }





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