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/*
 * Copyright (C) 2013 The Android Open Source Project
 *
 * 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 android.util;

import libcore.util.EmptyArray;

import java.lang.reflect.Array;
import java.util.Collection;
import java.util.Iterator;
import java.util.Map;
import java.util.Set;

/**
 * ArraySet is a generic set data structure that is designed to be more memory efficient than a
 * traditional {@link java.util.HashSet}.  The design is very similar to
 * {@link ArrayMap}, with all of the caveats described there.  This implementation is
 * separate from ArrayMap, however, so the Object array contains only one item for each
 * entry in the set (instead of a pair for a mapping).
 *
 * 

Note that this implementation is not intended to be appropriate for data structures * that may contain large numbers of items. It is generally slower than a traditional * HashSet, since lookups require a binary search and adds and removes require inserting * and deleting entries in the array. For containers holding up to hundreds of items, * the performance difference is not significant, less than 50%.

* *

Because this container is intended to better balance memory use, unlike most other * standard Java containers it will shrink its array as items are removed from it. Currently * you have no control over this shrinking -- if you set a capacity and then remove an * item, it may reduce the capacity to better match the current size. In the future an * explicit call to set the capacity should turn off this aggressive shrinking behavior.

*/ public final class ArraySet implements Collection, Set { private static final boolean DEBUG = false; private static final String TAG = "ArraySet"; /** * The minimum amount by which the capacity of a ArraySet will increase. * This is tuned to be relatively space-efficient. */ private static final int BASE_SIZE = 4; /** * Maximum number of entries to have in array caches. */ private static final int CACHE_SIZE = 10; /** * Caches of small array objects to avoid spamming garbage. The cache * Object[] variable is a pointer to a linked list of array objects. * The first entry in the array is a pointer to the next array in the * list; the second entry is a pointer to the int[] hash code array for it. */ static Object[] sBaseCache; static int sBaseCacheSize; static Object[] sTwiceBaseCache; static int sTwiceBaseCacheSize; final boolean mIdentityHashCode; int[] mHashes; Object[] mArray; int mSize; MapCollections mCollections; private int indexOf(Object key, int hash) { throw new UnsupportedOperationException("STUB"); } private int indexOfNull() { throw new UnsupportedOperationException("STUB"); } private void allocArrays(final int size) { throw new UnsupportedOperationException("STUB"); } private static void freeArrays(final int[] hashes, final Object[] array, final int size) { throw new UnsupportedOperationException("STUB"); } /** * Create a new empty ArraySet. The default capacity of an array map is 0, and * will grow once items are added to it. */ public ArraySet() { this(0, false); } /** * Create a new ArraySet with a given initial capacity. */ public ArraySet(int capacity) { this(capacity, false); } /** {@hide} */ public ArraySet(int capacity, boolean identityHashCode) { mIdentityHashCode = identityHashCode; if (capacity == 0) { mHashes = EmptyArray.INT; mArray = EmptyArray.OBJECT; } else { allocArrays(capacity); } mSize = 0; } /** * Create a new ArraySet with the mappings from the given ArraySet. */ public ArraySet(ArraySet set) { throw new UnsupportedOperationException("STUB"); } /** {@hide} */ public ArraySet(Collection set) { this(); if (set != null) { addAll(set); } } /** * Make the array map empty. All storage is released. */ @Override public void clear() { if (mSize != 0) { freeArrays(mHashes, mArray, mSize); mHashes = EmptyArray.INT; mArray = EmptyArray.OBJECT; mSize = 0; } } /** * Ensure the array map can hold at least minimumCapacity * items. */ public void ensureCapacity(int minimumCapacity) { if (mHashes.length < minimumCapacity) { final int[] ohashes = mHashes; final Object[] oarray = mArray; allocArrays(minimumCapacity); if (mSize > 0) { System.arraycopy(ohashes, 0, mHashes, 0, mSize); System.arraycopy(oarray, 0, mArray, 0, mSize); } freeArrays(ohashes, oarray, mSize); } } /** * Check whether a value exists in the set. * * @param key The value to search for. * @return Returns true if the value exists, else false. */ @Override public boolean contains(Object key) { return indexOf(key) >= 0; } /** * Returns the index of a value in the set. * * @param key The value to search for. * @return Returns the index of the value if it exists, else a negative integer. */ public int indexOf(Object key) { return key == null ? indexOfNull() : indexOf(key, mIdentityHashCode ? System.identityHashCode(key) : key.hashCode()); } /** * Return the value at the given index in the array. * @param index The desired index, must be between 0 and {@link #size()}-1. * @return Returns the value stored at the given index. */ public E valueAt(int index) { return (E) mArray[index]; } /** * Return true if the array map contains no items. */ @Override public boolean isEmpty() { return mSize <= 0; } /** * Adds the specified object to this set. The set is not modified if it * already contains the object. * * @param value the object to add. * @return {@code true} if this set is modified, {@code false} otherwise. * @throws ClassCastException * when the class of the object is inappropriate for this set. */ @Override public boolean add(E value) { final int hash; int index; if (value == null) { hash = 0; index = indexOfNull(); } else { hash = mIdentityHashCode ? System.identityHashCode(value) : value.hashCode(); index = indexOf(value, hash); } if (index >= 0) { return false; } index = ~index; if (mSize >= mHashes.length) { final int n = mSize >= (BASE_SIZE * 2) ? (mSize + (mSize >> 1)) : (mSize >= BASE_SIZE ? (BASE_SIZE * 2) : BASE_SIZE); if (DEBUG) Log.d(TAG, "add: grow from " + mHashes.length + " to " + n); final int[] ohashes = mHashes; final Object[] oarray = mArray; allocArrays(n); if (mHashes.length > 0) { if (DEBUG) Log.d(TAG, "add: copy 0-" + mSize + " to 0"); System.arraycopy(ohashes, 0, mHashes, 0, ohashes.length); System.arraycopy(oarray, 0, mArray, 0, oarray.length); } freeArrays(ohashes, oarray, mSize); } if (index < mSize) { if (DEBUG) { Log.d(TAG, "add: move " + index + "-" + (mSize - index) + " to " + (index + 1)); } System.arraycopy(mHashes, index, mHashes, index + 1, mSize - index); System.arraycopy(mArray, index, mArray, index + 1, mSize - index); } mHashes[index] = hash; mArray[index] = value; mSize++; return true; } /** * Special fast path for appending items to the end of the array without validation. * The array must already be large enough to contain the item. * @hide */ public void append(E value) { final int index = mSize; final int hash = value == null ? 0 : (mIdentityHashCode ? System.identityHashCode(value) : value.hashCode()); if (index >= mHashes.length) { throw new IllegalStateException("Array is full"); } if (index > 0 && mHashes[index - 1] > hash) { // Cannot optimize since it would break the sorted order - fallback to add() if (DEBUG) { RuntimeException e = new RuntimeException("here"); e.fillInStackTrace(); Log.w(TAG, "New hash " + hash + " is before end of array hash " + mHashes[index - 1] + " at index " + index, e); } add(value); return; } mSize = index + 1; mHashes[index] = hash; mArray[index] = value; } /** * Perform a {@link #add(Object)} of all values in array * @param array The array whose contents are to be retrieved. */ public void addAll(ArraySet array) { final int N = array.mSize; ensureCapacity(mSize + N); if (mSize == 0) { if (N > 0) { System.arraycopy(array.mHashes, 0, mHashes, 0, N); System.arraycopy(array.mArray, 0, mArray, 0, N); mSize = N; } } else { for (int i = 0; i < N; i++) { add(array.valueAt(i)); } } } /** * Removes the specified object from this set. * * @param object the object to remove. * @return {@code true} if this set was modified, {@code false} otherwise. */ @Override public boolean remove(Object object) { final int index = indexOf(object); if (index >= 0) { removeAt(index); return true; } return false; } /** * Remove the key/value mapping at the given index. * @param index The desired index, must be between 0 and {@link #size()}-1. * @return Returns the value that was stored at this index. */ public E removeAt(int index) { final Object old = mArray[index]; if (mSize <= 1) { // Now empty. if (DEBUG) Log.d(TAG, "remove: shrink from " + mHashes.length + " to 0"); freeArrays(mHashes, mArray, mSize); mHashes = EmptyArray.INT; mArray = EmptyArray.OBJECT; mSize = 0; } else { if (mHashes.length > (BASE_SIZE * 2) && mSize < mHashes.length / 3) { // Shrunk enough to reduce size of arrays. We don't allow it to // shrink smaller than (BASE_SIZE*2) to avoid flapping between // that and BASE_SIZE. final int n = mSize > (BASE_SIZE * 2) ? (mSize + (mSize >> 1)) : (BASE_SIZE * 2); if (DEBUG) Log.d(TAG, "remove: shrink from " + mHashes.length + " to " + n); final int[] ohashes = mHashes; final Object[] oarray = mArray; allocArrays(n); mSize--; if (index > 0) { if (DEBUG) Log.d(TAG, "remove: copy from 0-" + index + " to 0"); System.arraycopy(ohashes, 0, mHashes, 0, index); System.arraycopy(oarray, 0, mArray, 0, index); } if (index < mSize) { if (DEBUG) { Log.d(TAG, "remove: copy from " + (index + 1) + "-" + mSize + " to " + index); } System.arraycopy(ohashes, index + 1, mHashes, index, mSize - index); System.arraycopy(oarray, index + 1, mArray, index, mSize - index); } } else { mSize--; if (index < mSize) { if (DEBUG) { Log.d(TAG, "remove: move " + (index + 1) + "-" + mSize + " to " + index); } System.arraycopy(mHashes, index + 1, mHashes, index, mSize - index); System.arraycopy(mArray, index + 1, mArray, index, mSize - index); } mArray[mSize] = null; } } return (E) old; } /** * Perform a {@link #remove(Object)} of all values in array * @param array The array whose contents are to be removed. */ public boolean removeAll(ArraySet array) { // TODO: If array is sufficiently large, a marking approach might be beneficial. In a first // pass, use the property that the sets are sorted by hash to make this linear passes // (except for hash collisions, which means worst case still n*m), then do one // collection pass into a new array. This avoids binary searches and excessive memcpy. final int N = array.mSize; // Note: ArraySet does not make thread-safety guarantees. So instead of OR-ing together all // the single results, compare size before and after. final int originalSize = mSize; for (int i = 0; i < N; i++) { remove(array.valueAt(i)); } return originalSize != mSize; } /** * Return the number of items in this array map. */ @Override public int size() { return mSize; } @Override public Object[] toArray() { Object[] result = new Object[mSize]; System.arraycopy(mArray, 0, result, 0, mSize); return result; } @Override public T[] toArray(T[] array) { if (array.length < mSize) { @SuppressWarnings("unchecked") T[] newArray = (T[]) Array.newInstance(array.getClass().getComponentType(), mSize); array = newArray; } System.arraycopy(mArray, 0, array, 0, mSize); if (array.length > mSize) { array[mSize] = null; } return array; } /** * {@inheritDoc} * *

This implementation returns false if the object is not a set, or * if the sets have different sizes. Otherwise, for each value in this * set, it checks to make sure the value also exists in the other set. * If any value doesn't exist, the method returns false; otherwise, it * returns true. */ @Override public boolean equals(Object object) { if (this == object) { return true; } if (object instanceof Set) { Set set = (Set) object; if (size() != set.size()) { return false; } try { for (int i = 0; i < mSize; i++) { E mine = valueAt(i); if (!set.contains(mine)) { return false; } } } catch (NullPointerException ignored) { return false; } catch (ClassCastException ignored) { return false; } return true; } return false; } /** * {@inheritDoc} */ @Override public int hashCode() { final int[] hashes = mHashes; int result = 0; for (int i = 0, s = mSize; i < s; i++) { result += hashes[i]; } return result; } /** * {@inheritDoc} * *

This implementation composes a string by iterating over its values. If * this set contains itself as a value, the string "(this Set)" * will appear in its place. */ @Override public String toString() { if (isEmpty()) { return "{}"; } StringBuilder buffer = new StringBuilder(mSize * 14); buffer.append('{'); for (int i = 0; i < mSize; i++) { if (i > 0) { buffer.append(", "); } Object value = valueAt(i); if (value != this) { buffer.append(value); } else { buffer.append("(this Set)"); } } buffer.append('}'); return buffer.toString(); } // ------------------------------------------------------------------------ // Interop with traditional Java containers. Not as efficient as using // specialized collection APIs. // ------------------------------------------------------------------------ private MapCollections getCollection() { if (mCollections == null) { mCollections = new MapCollections() { @Override protected int colGetSize() { return mSize; } @Override protected Object colGetEntry(int index, int offset) { return mArray[index]; } @Override protected int colIndexOfKey(Object key) { return indexOf(key); } @Override protected int colIndexOfValue(Object value) { return indexOf(value); } @Override protected Map colGetMap() { throw new UnsupportedOperationException("not a map"); } @Override protected void colPut(E key, E value) { add(key); } @Override protected E colSetValue(int index, E value) { throw new UnsupportedOperationException("not a map"); } @Override protected void colRemoveAt(int index) { removeAt(index); } @Override protected void colClear() { clear(); } }; } return mCollections; } /** * Return an {@link java.util.Iterator} over all values in the set. * *

Note: this is a fairly inefficient way to access the array contents, it * requires generating a number of temporary objects and allocates additional state * information associated with the container that will remain for the life of the container.

*/ @Override public Iterator iterator() { return getCollection().getKeySet().iterator(); } /** * Determine if the array set contains all of the values in the given collection. * @param collection The collection whose contents are to be checked against. * @return Returns true if this array set contains a value for every entry * in collection, else returns false. */ @Override public boolean containsAll(Collection collection) { Iterator it = collection.iterator(); while (it.hasNext()) { if (!contains(it.next())) { return false; } } return true; } /** * Perform an {@link #add(Object)} of all values in collection * @param collection The collection whose contents are to be retrieved. */ @Override public boolean addAll(Collection collection) { ensureCapacity(mSize + collection.size()); boolean added = false; for (E value : collection) { added |= add(value); } return added; } /** * Remove all values in the array set that exist in the given collection. * @param collection The collection whose contents are to be used to remove values. * @return Returns true if any values were removed from the array set, else false. */ @Override public boolean removeAll(Collection collection) { boolean removed = false; for (Object value : collection) { removed |= remove(value); } return removed; } /** * Remove all values in the array set that do not exist in the given collection. * @param collection The collection whose contents are to be used to determine which * values to keep. * @return Returns true if any values were removed from the array set, else false. */ @Override public boolean retainAll(Collection collection) { boolean removed = false; for (int i = mSize - 1; i >= 0; i--) { if (!collection.contains(mArray[i])) { removeAt(i); removed = true; } } return removed; } }




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