1 /* 2 * Copyright (C) 2013 The Android Open Source Project 3 * 4 * Licensed under the Apache License, Version 2.0 (the "License"); 5 * you may not use this file except in compliance with the License. 6 * You may obtain a copy of the License at 7 * 8 * http://www.apache.org/licenses/LICENSE-2.0 9 * 10 * Unless required by applicable law or agreed to in writing, software 11 * distributed under the License is distributed on an "AS IS" BASIS, 12 * WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. 13 * See the License for the specific language governing permissions and 14 * limitations under the License. 15 */ 16 17 package android.util; 18 19 import android.annotation.UnsupportedAppUsage; 20 21 import com.android.internal.util.ArrayUtils; 22 23 import libcore.util.EmptyArray; 24 25 import java.util.Collection; 26 import java.util.ConcurrentModificationException; 27 import java.util.Map; 28 import java.util.Set; 29 30 /** 31 * ArrayMap is a generic key->value mapping data structure that is 32 * designed to be more memory efficient than a traditional {@link java.util.HashMap}. 33 * It keeps its mappings in an array data structure -- an integer array of hash 34 * codes for each item, and an Object array of the key/value pairs. This allows it to 35 * avoid having to create an extra object for every entry put in to the map, and it 36 * also tries to control the growth of the size of these arrays more aggressively 37 * (since growing them only requires copying the entries in the array, not rebuilding 38 * a hash map). 39 * 40 * <p>Note that this implementation is not intended to be appropriate for data structures 41 * that may contain large numbers of items. It is generally slower than a traditional 42 * HashMap, since lookups require a binary search and adds and removes require inserting 43 * and deleting entries in the array. For containers holding up to hundreds of items, 44 * the performance difference is not significant, less than 50%.</p> 45 * 46 * <p>Because this container is intended to better balance memory use, unlike most other 47 * standard Java containers it will shrink its array as items are removed from it. Currently 48 * you have no control over this shrinking -- if you set a capacity and then remove an 49 * item, it may reduce the capacity to better match the current size. In the future an 50 * explicit call to set the capacity should turn off this aggressive shrinking behavior.</p> 51 */ 52 public final class ArrayMap<K, V> implements Map<K, V> { 53 private static final boolean DEBUG = false; 54 private static final String TAG = "ArrayMap"; 55 56 /** 57 * Attempt to spot concurrent modifications to this data structure. 58 * 59 * It's best-effort, but any time we can throw something more diagnostic than an 60 * ArrayIndexOutOfBoundsException deep in the ArrayMap internals it's going to 61 * save a lot of development time. 62 * 63 * Good times to look for CME include after any allocArrays() call and at the end of 64 * functions that change mSize (put/remove/clear). 65 */ 66 private static final boolean CONCURRENT_MODIFICATION_EXCEPTIONS = true; 67 68 /** 69 * The minimum amount by which the capacity of a ArrayMap will increase. 70 * This is tuned to be relatively space-efficient. 71 */ 72 private static final int BASE_SIZE = 4; 73 74 /** 75 * Maximum number of entries to have in array caches. 76 */ 77 @UnsupportedAppUsage(maxTargetSdk = 28) // Allocations are an implementation detail. 78 private static final int CACHE_SIZE = 10; 79 80 /** 81 * Special hash array value that indicates the container is immutable. 82 */ 83 @UnsupportedAppUsage(maxTargetSdk = 28) // Allocations are an implementation detail. 84 static final int[] EMPTY_IMMUTABLE_INTS = new int[0]; 85 86 /** 87 * @hide Special immutable empty ArrayMap. 88 */ 89 @UnsupportedAppUsage(maxTargetSdk = 28) // Use your own singleton empty map. 90 public static final ArrayMap EMPTY = new ArrayMap<>(-1); 91 92 /** 93 * Caches of small array objects to avoid spamming garbage. The cache 94 * Object[] variable is a pointer to a linked list of array objects. 95 * The first entry in the array is a pointer to the next array in the 96 * list; the second entry is a pointer to the int[] hash code array for it. 97 */ 98 @UnsupportedAppUsage(maxTargetSdk = 28) // Allocations are an implementation detail. 99 static Object[] mBaseCache; 100 @UnsupportedAppUsage(maxTargetSdk = 28) // Allocations are an implementation detail. 101 static int mBaseCacheSize; 102 @UnsupportedAppUsage(maxTargetSdk = 28) // Allocations are an implementation detail. 103 static Object[] mTwiceBaseCache; 104 @UnsupportedAppUsage(maxTargetSdk = 28) // Allocations are an implementation detail. 105 static int mTwiceBaseCacheSize; 106 107 final boolean mIdentityHashCode; 108 @UnsupportedAppUsage(maxTargetSdk = 28) // Hashes are an implementation detail. Use public key/value API. 109 int[] mHashes; 110 @UnsupportedAppUsage(maxTargetSdk = 28) // Storage is an implementation detail. Use public key/value API. 111 Object[] mArray; 112 @UnsupportedAppUsage(maxTargetSdk = 28) // Use size() 113 int mSize; 114 MapCollections<K, V> mCollections; 115 binarySearchHashes(int[] hashes, int N, int hash)116 private static int binarySearchHashes(int[] hashes, int N, int hash) { 117 try { 118 return ContainerHelpers.binarySearch(hashes, N, hash); 119 } catch (ArrayIndexOutOfBoundsException e) { 120 if (CONCURRENT_MODIFICATION_EXCEPTIONS) { 121 throw new ConcurrentModificationException(); 122 } else { 123 throw e; // the cache is poisoned at this point, there's not much we can do 124 } 125 } 126 } 127 128 @UnsupportedAppUsage(maxTargetSdk = 28) // Hashes are an implementation detail. Use indexOfKey(Object). indexOf(Object key, int hash)129 int indexOf(Object key, int hash) { 130 final int N = mSize; 131 132 // Important fast case: if nothing is in here, nothing to look for. 133 if (N == 0) { 134 return ~0; 135 } 136 137 int index = binarySearchHashes(mHashes, N, hash); 138 139 // If the hash code wasn't found, then we have no entry for this key. 140 if (index < 0) { 141 return index; 142 } 143 144 // If the key at the returned index matches, that's what we want. 145 if (key.equals(mArray[index<<1])) { 146 return index; 147 } 148 149 // Search for a matching key after the index. 150 int end; 151 for (end = index + 1; end < N && mHashes[end] == hash; end++) { 152 if (key.equals(mArray[end << 1])) return end; 153 } 154 155 // Search for a matching key before the index. 156 for (int i = index - 1; i >= 0 && mHashes[i] == hash; i--) { 157 if (key.equals(mArray[i << 1])) return i; 158 } 159 160 // Key not found -- return negative value indicating where a 161 // new entry for this key should go. We use the end of the 162 // hash chain to reduce the number of array entries that will 163 // need to be copied when inserting. 164 return ~end; 165 } 166 167 @UnsupportedAppUsage(maxTargetSdk = 28) // Use indexOf(null) indexOfNull()168 int indexOfNull() { 169 final int N = mSize; 170 171 // Important fast case: if nothing is in here, nothing to look for. 172 if (N == 0) { 173 return ~0; 174 } 175 176 int index = binarySearchHashes(mHashes, N, 0); 177 178 // If the hash code wasn't found, then we have no entry for this key. 179 if (index < 0) { 180 return index; 181 } 182 183 // If the key at the returned index matches, that's what we want. 184 if (null == mArray[index<<1]) { 185 return index; 186 } 187 188 // Search for a matching key after the index. 189 int end; 190 for (end = index + 1; end < N && mHashes[end] == 0; end++) { 191 if (null == mArray[end << 1]) return end; 192 } 193 194 // Search for a matching key before the index. 195 for (int i = index - 1; i >= 0 && mHashes[i] == 0; i--) { 196 if (null == mArray[i << 1]) return i; 197 } 198 199 // Key not found -- return negative value indicating where a 200 // new entry for this key should go. We use the end of the 201 // hash chain to reduce the number of array entries that will 202 // need to be copied when inserting. 203 return ~end; 204 } 205 206 @UnsupportedAppUsage(maxTargetSdk = 28) // Allocations are an implementation detail. allocArrays(final int size)207 private void allocArrays(final int size) { 208 if (mHashes == EMPTY_IMMUTABLE_INTS) { 209 throw new UnsupportedOperationException("ArrayMap is immutable"); 210 } 211 if (size == (BASE_SIZE*2)) { 212 synchronized (ArrayMap.class) { 213 if (mTwiceBaseCache != null) { 214 final Object[] array = mTwiceBaseCache; 215 mArray = array; 216 mTwiceBaseCache = (Object[])array[0]; 217 mHashes = (int[])array[1]; 218 array[0] = array[1] = null; 219 mTwiceBaseCacheSize--; 220 if (DEBUG) Log.d(TAG, "Retrieving 2x cache " + mHashes 221 + " now have " + mTwiceBaseCacheSize + " entries"); 222 return; 223 } 224 } 225 } else if (size == BASE_SIZE) { 226 synchronized (ArrayMap.class) { 227 if (mBaseCache != null) { 228 final Object[] array = mBaseCache; 229 mArray = array; 230 mBaseCache = (Object[])array[0]; 231 mHashes = (int[])array[1]; 232 array[0] = array[1] = null; 233 mBaseCacheSize--; 234 if (DEBUG) Log.d(TAG, "Retrieving 1x cache " + mHashes 235 + " now have " + mBaseCacheSize + " entries"); 236 return; 237 } 238 } 239 } 240 241 mHashes = new int[size]; 242 mArray = new Object[size<<1]; 243 } 244 245 @UnsupportedAppUsage(maxTargetSdk = 28) // Allocations are an implementation detail. freeArrays(final int[] hashes, final Object[] array, final int size)246 private static void freeArrays(final int[] hashes, final Object[] array, final int size) { 247 if (hashes.length == (BASE_SIZE*2)) { 248 synchronized (ArrayMap.class) { 249 if (mTwiceBaseCacheSize < CACHE_SIZE) { 250 array[0] = mTwiceBaseCache; 251 array[1] = hashes; 252 for (int i=(size<<1)-1; i>=2; i--) { 253 array[i] = null; 254 } 255 mTwiceBaseCache = array; 256 mTwiceBaseCacheSize++; 257 if (DEBUG) Log.d(TAG, "Storing 2x cache " + array 258 + " now have " + mTwiceBaseCacheSize + " entries"); 259 } 260 } 261 } else if (hashes.length == BASE_SIZE) { 262 synchronized (ArrayMap.class) { 263 if (mBaseCacheSize < CACHE_SIZE) { 264 array[0] = mBaseCache; 265 array[1] = hashes; 266 for (int i=(size<<1)-1; i>=2; i--) { 267 array[i] = null; 268 } 269 mBaseCache = array; 270 mBaseCacheSize++; 271 if (DEBUG) Log.d(TAG, "Storing 1x cache " + array 272 + " now have " + mBaseCacheSize + " entries"); 273 } 274 } 275 } 276 } 277 278 /** 279 * Create a new empty ArrayMap. The default capacity of an array map is 0, and 280 * will grow once items are added to it. 281 */ ArrayMap()282 public ArrayMap() { 283 this(0, false); 284 } 285 286 /** 287 * Create a new ArrayMap with a given initial capacity. 288 */ ArrayMap(int capacity)289 public ArrayMap(int capacity) { 290 this(capacity, false); 291 } 292 293 /** {@hide} */ ArrayMap(int capacity, boolean identityHashCode)294 public ArrayMap(int capacity, boolean identityHashCode) { 295 mIdentityHashCode = identityHashCode; 296 297 // If this is immutable, use the sentinal EMPTY_IMMUTABLE_INTS 298 // instance instead of the usual EmptyArray.INT. The reference 299 // is checked later to see if the array is allowed to grow. 300 if (capacity < 0) { 301 mHashes = EMPTY_IMMUTABLE_INTS; 302 mArray = EmptyArray.OBJECT; 303 } else if (capacity == 0) { 304 mHashes = EmptyArray.INT; 305 mArray = EmptyArray.OBJECT; 306 } else { 307 allocArrays(capacity); 308 } 309 mSize = 0; 310 } 311 312 /** 313 * Create a new ArrayMap with the mappings from the given ArrayMap. 314 */ ArrayMap(ArrayMap<K, V> map)315 public ArrayMap(ArrayMap<K, V> map) { 316 this(); 317 if (map != null) { 318 putAll(map); 319 } 320 } 321 322 /** 323 * Make the array map empty. All storage is released. 324 */ 325 @Override clear()326 public void clear() { 327 if (mSize > 0) { 328 final int[] ohashes = mHashes; 329 final Object[] oarray = mArray; 330 final int osize = mSize; 331 mHashes = EmptyArray.INT; 332 mArray = EmptyArray.OBJECT; 333 mSize = 0; 334 freeArrays(ohashes, oarray, osize); 335 } 336 if (CONCURRENT_MODIFICATION_EXCEPTIONS && mSize > 0) { 337 throw new ConcurrentModificationException(); 338 } 339 } 340 341 /** 342 * @hide 343 * Like {@link #clear}, but doesn't reduce the capacity of the ArrayMap. 344 */ erase()345 public void erase() { 346 if (mSize > 0) { 347 final int N = mSize<<1; 348 final Object[] array = mArray; 349 for (int i=0; i<N; i++) { 350 array[i] = null; 351 } 352 mSize = 0; 353 } 354 } 355 356 /** 357 * Ensure the array map can hold at least <var>minimumCapacity</var> 358 * items. 359 */ ensureCapacity(int minimumCapacity)360 public void ensureCapacity(int minimumCapacity) { 361 final int osize = mSize; 362 if (mHashes.length < minimumCapacity) { 363 final int[] ohashes = mHashes; 364 final Object[] oarray = mArray; 365 allocArrays(minimumCapacity); 366 if (mSize > 0) { 367 System.arraycopy(ohashes, 0, mHashes, 0, osize); 368 System.arraycopy(oarray, 0, mArray, 0, osize<<1); 369 } 370 freeArrays(ohashes, oarray, osize); 371 } 372 if (CONCURRENT_MODIFICATION_EXCEPTIONS && mSize != osize) { 373 throw new ConcurrentModificationException(); 374 } 375 } 376 377 /** 378 * Check whether a key exists in the array. 379 * 380 * @param key The key to search for. 381 * @return Returns true if the key exists, else false. 382 */ 383 @Override containsKey(Object key)384 public boolean containsKey(Object key) { 385 return indexOfKey(key) >= 0; 386 } 387 388 /** 389 * Returns the index of a key in the set. 390 * 391 * @param key The key to search for. 392 * @return Returns the index of the key if it exists, else a negative integer. 393 */ indexOfKey(Object key)394 public int indexOfKey(Object key) { 395 return key == null ? indexOfNull() 396 : indexOf(key, mIdentityHashCode ? System.identityHashCode(key) : key.hashCode()); 397 } 398 399 /** 400 * Returns an index for which {@link #valueAt} would return the 401 * specified value, or a negative number if no keys map to the 402 * specified value. 403 * Beware that this is a linear search, unlike lookups by key, 404 * and that multiple keys can map to the same value and this will 405 * find only one of them. 406 */ indexOfValue(Object value)407 public int indexOfValue(Object value) { 408 final int N = mSize*2; 409 final Object[] array = mArray; 410 if (value == null) { 411 for (int i=1; i<N; i+=2) { 412 if (array[i] == null) { 413 return i>>1; 414 } 415 } 416 } else { 417 for (int i=1; i<N; i+=2) { 418 if (value.equals(array[i])) { 419 return i>>1; 420 } 421 } 422 } 423 return -1; 424 } 425 426 /** 427 * Check whether a value exists in the array. This requires a linear search 428 * through the entire array. 429 * 430 * @param value The value to search for. 431 * @return Returns true if the value exists, else false. 432 */ 433 @Override containsValue(Object value)434 public boolean containsValue(Object value) { 435 return indexOfValue(value) >= 0; 436 } 437 438 /** 439 * Retrieve a value from the array. 440 * @param key The key of the value to retrieve. 441 * @return Returns the value associated with the given key, 442 * or null if there is no such key. 443 */ 444 @Override get(Object key)445 public V get(Object key) { 446 final int index = indexOfKey(key); 447 return index >= 0 ? (V)mArray[(index<<1)+1] : null; 448 } 449 450 /** 451 * Return the key at the given index in the array. 452 * 453 * <p>For indices outside of the range <code>0...size()-1</code>, the behavior is undefined for 454 * apps targeting {@link android.os.Build.VERSION_CODES#P} and earlier, and an 455 * {@link ArrayIndexOutOfBoundsException} is thrown for apps targeting 456 * {@link android.os.Build.VERSION_CODES#Q} and later.</p> 457 * 458 * @param index The desired index, must be between 0 and {@link #size()}-1. 459 * @return Returns the key stored at the given index. 460 */ keyAt(int index)461 public K keyAt(int index) { 462 if (index >= mSize && UtilConfig.sThrowExceptionForUpperArrayOutOfBounds) { 463 // The array might be slightly bigger than mSize, in which case, indexing won't fail. 464 // Check if exception should be thrown outside of the critical path. 465 throw new ArrayIndexOutOfBoundsException(index); 466 } 467 return (K)mArray[index << 1]; 468 } 469 470 /** 471 * Return the value at the given index in the array. 472 * 473 * <p>For indices outside of the range <code>0...size()-1</code>, the behavior is undefined for 474 * apps targeting {@link android.os.Build.VERSION_CODES#P} and earlier, and an 475 * {@link ArrayIndexOutOfBoundsException} is thrown for apps targeting 476 * {@link android.os.Build.VERSION_CODES#Q} and later.</p> 477 * 478 * @param index The desired index, must be between 0 and {@link #size()}-1. 479 * @return Returns the value stored at the given index. 480 */ valueAt(int index)481 public V valueAt(int index) { 482 if (index >= mSize && UtilConfig.sThrowExceptionForUpperArrayOutOfBounds) { 483 // The array might be slightly bigger than mSize, in which case, indexing won't fail. 484 // Check if exception should be thrown outside of the critical path. 485 throw new ArrayIndexOutOfBoundsException(index); 486 } 487 return (V)mArray[(index << 1) + 1]; 488 } 489 490 /** 491 * Set the value at a given index in the array. 492 * 493 * <p>For indices outside of the range <code>0...size()-1</code>, the behavior is undefined for 494 * apps targeting {@link android.os.Build.VERSION_CODES#P} and earlier, and an 495 * {@link ArrayIndexOutOfBoundsException} is thrown for apps targeting 496 * {@link android.os.Build.VERSION_CODES#Q} and later.</p> 497 * 498 * @param index The desired index, must be between 0 and {@link #size()}-1. 499 * @param value The new value to store at this index. 500 * @return Returns the previous value at the given index. 501 */ setValueAt(int index, V value)502 public V setValueAt(int index, V value) { 503 if (index >= mSize && UtilConfig.sThrowExceptionForUpperArrayOutOfBounds) { 504 // The array might be slightly bigger than mSize, in which case, indexing won't fail. 505 // Check if exception should be thrown outside of the critical path. 506 throw new ArrayIndexOutOfBoundsException(index); 507 } 508 index = (index << 1) + 1; 509 V old = (V)mArray[index]; 510 mArray[index] = value; 511 return old; 512 } 513 514 /** 515 * Return true if the array map contains no items. 516 */ 517 @Override isEmpty()518 public boolean isEmpty() { 519 return mSize <= 0; 520 } 521 522 /** 523 * Add a new value to the array map. 524 * @param key The key under which to store the value. If 525 * this key already exists in the array, its value will be replaced. 526 * @param value The value to store for the given key. 527 * @return Returns the old value that was stored for the given key, or null if there 528 * was no such key. 529 */ 530 @Override put(K key, V value)531 public V put(K key, V value) { 532 final int osize = mSize; 533 final int hash; 534 int index; 535 if (key == null) { 536 hash = 0; 537 index = indexOfNull(); 538 } else { 539 hash = mIdentityHashCode ? System.identityHashCode(key) : key.hashCode(); 540 index = indexOf(key, hash); 541 } 542 if (index >= 0) { 543 index = (index<<1) + 1; 544 final V old = (V)mArray[index]; 545 mArray[index] = value; 546 return old; 547 } 548 549 index = ~index; 550 if (osize >= mHashes.length) { 551 final int n = osize >= (BASE_SIZE*2) ? (osize+(osize>>1)) 552 : (osize >= BASE_SIZE ? (BASE_SIZE*2) : BASE_SIZE); 553 554 if (DEBUG) Log.d(TAG, "put: grow from " + mHashes.length + " to " + n); 555 556 final int[] ohashes = mHashes; 557 final Object[] oarray = mArray; 558 allocArrays(n); 559 560 if (CONCURRENT_MODIFICATION_EXCEPTIONS && osize != mSize) { 561 throw new ConcurrentModificationException(); 562 } 563 564 if (mHashes.length > 0) { 565 if (DEBUG) Log.d(TAG, "put: copy 0-" + osize + " to 0"); 566 System.arraycopy(ohashes, 0, mHashes, 0, ohashes.length); 567 System.arraycopy(oarray, 0, mArray, 0, oarray.length); 568 } 569 570 freeArrays(ohashes, oarray, osize); 571 } 572 573 if (index < osize) { 574 if (DEBUG) Log.d(TAG, "put: move " + index + "-" + (osize-index) 575 + " to " + (index+1)); 576 System.arraycopy(mHashes, index, mHashes, index + 1, osize - index); 577 System.arraycopy(mArray, index << 1, mArray, (index + 1) << 1, (mSize - index) << 1); 578 } 579 580 if (CONCURRENT_MODIFICATION_EXCEPTIONS) { 581 if (osize != mSize || index >= mHashes.length) { 582 throw new ConcurrentModificationException(); 583 } 584 } 585 mHashes[index] = hash; 586 mArray[index<<1] = key; 587 mArray[(index<<1)+1] = value; 588 mSize++; 589 return null; 590 } 591 592 /** 593 * Special fast path for appending items to the end of the array without validation. 594 * The array must already be large enough to contain the item. 595 * @hide 596 */ 597 @UnsupportedAppUsage(maxTargetSdk = 28) // Storage is an implementation detail. Use put(K, V). append(K key, V value)598 public void append(K key, V value) { 599 int index = mSize; 600 final int hash = key == null ? 0 601 : (mIdentityHashCode ? System.identityHashCode(key) : key.hashCode()); 602 if (index >= mHashes.length) { 603 throw new IllegalStateException("Array is full"); 604 } 605 if (index > 0 && mHashes[index-1] > hash) { 606 RuntimeException e = new RuntimeException("here"); 607 e.fillInStackTrace(); 608 Log.w(TAG, "New hash " + hash 609 + " is before end of array hash " + mHashes[index-1] 610 + " at index " + index + " key " + key, e); 611 put(key, value); 612 return; 613 } 614 mSize = index+1; 615 mHashes[index] = hash; 616 index <<= 1; 617 mArray[index] = key; 618 mArray[index+1] = value; 619 } 620 621 /** 622 * The use of the {@link #append} function can result in invalid array maps, in particular 623 * an array map where the same key appears multiple times. This function verifies that 624 * the array map is valid, throwing IllegalArgumentException if a problem is found. The 625 * main use for this method is validating an array map after unpacking from an IPC, to 626 * protect against malicious callers. 627 * @hide 628 */ validate()629 public void validate() { 630 final int N = mSize; 631 if (N <= 1) { 632 // There can't be dups. 633 return; 634 } 635 int basehash = mHashes[0]; 636 int basei = 0; 637 for (int i=1; i<N; i++) { 638 int hash = mHashes[i]; 639 if (hash != basehash) { 640 basehash = hash; 641 basei = i; 642 continue; 643 } 644 // We are in a run of entries with the same hash code. Go backwards through 645 // the array to see if any keys are the same. 646 final Object cur = mArray[i<<1]; 647 for (int j=i-1; j>=basei; j--) { 648 final Object prev = mArray[j<<1]; 649 if (cur == prev) { 650 throw new IllegalArgumentException("Duplicate key in ArrayMap: " + cur); 651 } 652 if (cur != null && prev != null && cur.equals(prev)) { 653 throw new IllegalArgumentException("Duplicate key in ArrayMap: " + cur); 654 } 655 } 656 } 657 } 658 659 /** 660 * Perform a {@link #put(Object, Object)} of all key/value pairs in <var>array</var> 661 * @param array The array whose contents are to be retrieved. 662 */ putAll(ArrayMap<? extends K, ? extends V> array)663 public void putAll(ArrayMap<? extends K, ? extends V> array) { 664 final int N = array.mSize; 665 ensureCapacity(mSize + N); 666 if (mSize == 0) { 667 if (N > 0) { 668 System.arraycopy(array.mHashes, 0, mHashes, 0, N); 669 System.arraycopy(array.mArray, 0, mArray, 0, N<<1); 670 mSize = N; 671 } 672 } else { 673 for (int i=0; i<N; i++) { 674 put(array.keyAt(i), array.valueAt(i)); 675 } 676 } 677 } 678 679 /** 680 * Remove an existing key from the array map. 681 * @param key The key of the mapping to remove. 682 * @return Returns the value that was stored under the key, or null if there 683 * was no such key. 684 */ 685 @Override remove(Object key)686 public V remove(Object key) { 687 final int index = indexOfKey(key); 688 if (index >= 0) { 689 return removeAt(index); 690 } 691 692 return null; 693 } 694 695 /** 696 * Remove the key/value mapping at the given index. 697 * 698 * <p>For indices outside of the range <code>0...size()-1</code>, the behavior is undefined for 699 * apps targeting {@link android.os.Build.VERSION_CODES#P} and earlier, and an 700 * {@link ArrayIndexOutOfBoundsException} is thrown for apps targeting 701 * {@link android.os.Build.VERSION_CODES#Q} and later.</p> 702 * 703 * @param index The desired index, must be between 0 and {@link #size()}-1. 704 * @return Returns the value that was stored at this index. 705 */ removeAt(int index)706 public V removeAt(int index) { 707 if (index >= mSize && UtilConfig.sThrowExceptionForUpperArrayOutOfBounds) { 708 // The array might be slightly bigger than mSize, in which case, indexing won't fail. 709 // Check if exception should be thrown outside of the critical path. 710 throw new ArrayIndexOutOfBoundsException(index); 711 } 712 713 final Object old = mArray[(index << 1) + 1]; 714 final int osize = mSize; 715 final int nsize; 716 if (osize <= 1) { 717 // Now empty. 718 if (DEBUG) Log.d(TAG, "remove: shrink from " + mHashes.length + " to 0"); 719 final int[] ohashes = mHashes; 720 final Object[] oarray = mArray; 721 mHashes = EmptyArray.INT; 722 mArray = EmptyArray.OBJECT; 723 freeArrays(ohashes, oarray, osize); 724 nsize = 0; 725 } else { 726 nsize = osize - 1; 727 if (mHashes.length > (BASE_SIZE*2) && mSize < mHashes.length/3) { 728 // Shrunk enough to reduce size of arrays. We don't allow it to 729 // shrink smaller than (BASE_SIZE*2) to avoid flapping between 730 // that and BASE_SIZE. 731 final int n = osize > (BASE_SIZE*2) ? (osize + (osize>>1)) : (BASE_SIZE*2); 732 733 if (DEBUG) Log.d(TAG, "remove: shrink from " + mHashes.length + " to " + n); 734 735 final int[] ohashes = mHashes; 736 final Object[] oarray = mArray; 737 allocArrays(n); 738 739 if (CONCURRENT_MODIFICATION_EXCEPTIONS && osize != mSize) { 740 throw new ConcurrentModificationException(); 741 } 742 743 if (index > 0) { 744 if (DEBUG) Log.d(TAG, "remove: copy from 0-" + index + " to 0"); 745 System.arraycopy(ohashes, 0, mHashes, 0, index); 746 System.arraycopy(oarray, 0, mArray, 0, index << 1); 747 } 748 if (index < nsize) { 749 if (DEBUG) Log.d(TAG, "remove: copy from " + (index+1) + "-" + nsize 750 + " to " + index); 751 System.arraycopy(ohashes, index + 1, mHashes, index, nsize - index); 752 System.arraycopy(oarray, (index + 1) << 1, mArray, index << 1, 753 (nsize - index) << 1); 754 } 755 } else { 756 if (index < nsize) { 757 if (DEBUG) Log.d(TAG, "remove: move " + (index+1) + "-" + nsize 758 + " to " + index); 759 System.arraycopy(mHashes, index + 1, mHashes, index, nsize - index); 760 System.arraycopy(mArray, (index + 1) << 1, mArray, index << 1, 761 (nsize - index) << 1); 762 } 763 mArray[nsize << 1] = null; 764 mArray[(nsize << 1) + 1] = null; 765 } 766 } 767 if (CONCURRENT_MODIFICATION_EXCEPTIONS && osize != mSize) { 768 throw new ConcurrentModificationException(); 769 } 770 mSize = nsize; 771 return (V)old; 772 } 773 774 /** 775 * Return the number of items in this array map. 776 */ 777 @Override size()778 public int size() { 779 return mSize; 780 } 781 782 /** 783 * {@inheritDoc} 784 * 785 * <p>This implementation returns false if the object is not a map, or 786 * if the maps have different sizes. Otherwise, for each key in this map, 787 * values of both maps are compared. If the values for any key are not 788 * equal, the method returns false, otherwise it returns true. 789 */ 790 @Override equals(Object object)791 public boolean equals(Object object) { 792 if (this == object) { 793 return true; 794 } 795 if (object instanceof Map) { 796 Map<?, ?> map = (Map<?, ?>) object; 797 if (size() != map.size()) { 798 return false; 799 } 800 801 try { 802 for (int i=0; i<mSize; i++) { 803 K key = keyAt(i); 804 V mine = valueAt(i); 805 Object theirs = map.get(key); 806 if (mine == null) { 807 if (theirs != null || !map.containsKey(key)) { 808 return false; 809 } 810 } else if (!mine.equals(theirs)) { 811 return false; 812 } 813 } 814 } catch (NullPointerException ignored) { 815 return false; 816 } catch (ClassCastException ignored) { 817 return false; 818 } 819 return true; 820 } 821 return false; 822 } 823 824 /** 825 * {@inheritDoc} 826 */ 827 @Override hashCode()828 public int hashCode() { 829 final int[] hashes = mHashes; 830 final Object[] array = mArray; 831 int result = 0; 832 for (int i = 0, v = 1, s = mSize; i < s; i++, v+=2) { 833 Object value = array[v]; 834 result += hashes[i] ^ (value == null ? 0 : value.hashCode()); 835 } 836 return result; 837 } 838 839 /** 840 * {@inheritDoc} 841 * 842 * <p>This implementation composes a string by iterating over its mappings. If 843 * this map contains itself as a key or a value, the string "(this Map)" 844 * will appear in its place. 845 */ 846 @Override toString()847 public String toString() { 848 if (isEmpty()) { 849 return "{}"; 850 } 851 852 StringBuilder buffer = new StringBuilder(mSize * 28); 853 buffer.append('{'); 854 for (int i=0; i<mSize; i++) { 855 if (i > 0) { 856 buffer.append(", "); 857 } 858 Object key = keyAt(i); 859 if (key != this) { 860 buffer.append(key); 861 } else { 862 buffer.append("(this Map)"); 863 } 864 buffer.append('='); 865 Object value = valueAt(i); 866 if (value != this) { 867 buffer.append(ArrayUtils.deepToString(value)); 868 } else { 869 buffer.append("(this Map)"); 870 } 871 } 872 buffer.append('}'); 873 return buffer.toString(); 874 } 875 876 // ------------------------------------------------------------------------ 877 // Interop with traditional Java containers. Not as efficient as using 878 // specialized collection APIs. 879 // ------------------------------------------------------------------------ 880 getCollection()881 private MapCollections<K, V> getCollection() { 882 if (mCollections == null) { 883 mCollections = new MapCollections<K, V>() { 884 @Override 885 protected int colGetSize() { 886 return mSize; 887 } 888 889 @Override 890 protected Object colGetEntry(int index, int offset) { 891 return mArray[(index<<1) + offset]; 892 } 893 894 @Override 895 protected int colIndexOfKey(Object key) { 896 return indexOfKey(key); 897 } 898 899 @Override 900 protected int colIndexOfValue(Object value) { 901 return indexOfValue(value); 902 } 903 904 @Override 905 protected Map<K, V> colGetMap() { 906 return ArrayMap.this; 907 } 908 909 @Override 910 protected void colPut(K key, V value) { 911 put(key, value); 912 } 913 914 @Override 915 protected V colSetValue(int index, V value) { 916 return setValueAt(index, value); 917 } 918 919 @Override 920 protected void colRemoveAt(int index) { 921 removeAt(index); 922 } 923 924 @Override 925 protected void colClear() { 926 clear(); 927 } 928 }; 929 } 930 return mCollections; 931 } 932 933 /** 934 * Determine if the array map contains all of the keys in the given collection. 935 * @param collection The collection whose contents are to be checked against. 936 * @return Returns true if this array map contains a key for every entry 937 * in <var>collection</var>, else returns false. 938 */ containsAll(Collection<?> collection)939 public boolean containsAll(Collection<?> collection) { 940 return MapCollections.containsAllHelper(this, collection); 941 } 942 943 /** 944 * Perform a {@link #put(Object, Object)} of all key/value pairs in <var>map</var> 945 * @param map The map whose contents are to be retrieved. 946 */ 947 @Override putAll(Map<? extends K, ? extends V> map)948 public void putAll(Map<? extends K, ? extends V> map) { 949 ensureCapacity(mSize + map.size()); 950 for (Map.Entry<? extends K, ? extends V> entry : map.entrySet()) { 951 put(entry.getKey(), entry.getValue()); 952 } 953 } 954 955 /** 956 * Remove all keys in the array map that exist in the given collection. 957 * @param collection The collection whose contents are to be used to remove keys. 958 * @return Returns true if any keys were removed from the array map, else false. 959 */ removeAll(Collection<?> collection)960 public boolean removeAll(Collection<?> collection) { 961 return MapCollections.removeAllHelper(this, collection); 962 } 963 964 /** 965 * Remove all keys in the array map that do <b>not</b> exist in the given collection. 966 * @param collection The collection whose contents are to be used to determine which 967 * keys to keep. 968 * @return Returns true if any keys were removed from the array map, else false. 969 */ retainAll(Collection<?> collection)970 public boolean retainAll(Collection<?> collection) { 971 return MapCollections.retainAllHelper(this, collection); 972 } 973 974 /** 975 * Return a {@link java.util.Set} for iterating over and interacting with all mappings 976 * in the array map. 977 * 978 * <p><b>Note:</b> this is a very inefficient way to access the array contents, it 979 * requires generating a number of temporary objects and allocates additional state 980 * information associated with the container that will remain for the life of the container.</p> 981 * 982 * <p><b>Note:</b></p> the semantics of this 983 * Set are subtly different than that of a {@link java.util.HashMap}: most important, 984 * the {@link java.util.Map.Entry Map.Entry} object returned by its iterator is a single 985 * object that exists for the entire iterator, so you can <b>not</b> hold on to it 986 * after calling {@link java.util.Iterator#next() Iterator.next}.</p> 987 */ 988 @Override entrySet()989 public Set<Map.Entry<K, V>> entrySet() { 990 return getCollection().getEntrySet(); 991 } 992 993 /** 994 * Return a {@link java.util.Set} for iterating over and interacting with all keys 995 * in the array map. 996 * 997 * <p><b>Note:</b> this is a fairly inefficient way to access the array contents, it 998 * requires generating a number of temporary objects and allocates additional state 999 * information associated with the container that will remain for the life of the container.</p> 1000 */ 1001 @Override keySet()1002 public Set<K> keySet() { 1003 return getCollection().getKeySet(); 1004 } 1005 1006 /** 1007 * Return a {@link java.util.Collection} for iterating over and interacting with all values 1008 * in the array map. 1009 * 1010 * <p><b>Note:</b> this is a fairly inefficient way to access the array contents, it 1011 * requires generating a number of temporary objects and allocates additional state 1012 * information associated with the container that will remain for the life of the container.</p> 1013 */ 1014 @Override values()1015 public Collection<V> values() { 1016 return getCollection().getValues(); 1017 } 1018 } 1019