1 /* 2 * Copyright (C) 2006 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.graphics; 18 19 import android.os.Parcel; 20 import android.os.Parcelable; 21 import android.util.DisplayMetrics; 22 23 import java.io.OutputStream; 24 import java.nio.Buffer; 25 import java.nio.ByteBuffer; 26 import java.nio.IntBuffer; 27 import java.nio.ShortBuffer; 28 29 public final class Bitmap implements Parcelable { 30 /** 31 * Indicates that the bitmap was created for an unknown pixel density. 32 * 33 * @see Bitmap#getDensity() 34 * @see Bitmap#setDensity(int) 35 */ 36 public static final int DENSITY_NONE = 0; 37 38 /** 39 * Note: mNativeBitmap is used by FaceDetector_jni.cpp 40 * Don't change/rename without updating FaceDetector_jni.cpp 41 * 42 * @hide 43 */ 44 public final int mNativeBitmap; 45 46 /** 47 * Backing buffer for the Bitmap. 48 * Made public for quick access from drawing methods -- do NOT modify 49 * from outside this class. 50 * 51 * @hide 52 */ 53 public byte[] mBuffer; 54 55 @SuppressWarnings({"FieldCanBeLocal", "UnusedDeclaration"}) // Keep to finalize native resources 56 private final BitmapFinalizer mFinalizer; 57 58 private final boolean mIsMutable; 59 private byte[] mNinePatchChunk; // may be null 60 private int[] mLayoutBounds; // may be null 61 private int mWidth = -1; 62 private int mHeight = -1; 63 private boolean mRecycled; 64 65 // Package-scoped for fast access. 66 int mDensity = getDefaultDensity(); 67 68 private static volatile Matrix sScaleMatrix; 69 70 private static volatile int sDefaultDensity = -1; 71 72 /** 73 * For backwards compatibility, allows the app layer to change the default 74 * density when running old apps. 75 * @hide 76 */ 77 public static void setDefaultDensity(int density) { 78 sDefaultDensity = density; 79 } 80 81 static int getDefaultDensity() { 82 if (sDefaultDensity >= 0) { 83 return sDefaultDensity; 84 } 85 //noinspection deprecation 86 sDefaultDensity = DisplayMetrics.DENSITY_DEVICE; 87 return sDefaultDensity; 88 } 89 90 /** 91 * @noinspection UnusedDeclaration 92 */ 93 /* Private constructor that must received an already allocated native 94 bitmap int (pointer). 95 96 This can be called from JNI code. 97 */ 98 Bitmap(int nativeBitmap, byte[] buffer, boolean isMutable, byte[] ninePatchChunk, 99 int density) { 100 this(nativeBitmap, buffer, isMutable, ninePatchChunk, null, density); 101 } 102 103 /** 104 * @noinspection UnusedDeclaration 105 */ 106 /* Private constructor that must received an already allocated native 107 bitmap int (pointer). 108 109 This can be called from JNI code. 110 */ 111 Bitmap(int nativeBitmap, byte[] buffer, boolean isMutable, byte[] ninePatchChunk, 112 int[] layoutBounds, int density) { 113 if (nativeBitmap == 0) { 114 throw new RuntimeException("internal error: native bitmap is 0"); 115 } 116 117 mBuffer = buffer; 118 // we delete this in our finalizer 119 mNativeBitmap = nativeBitmap; 120 mFinalizer = new BitmapFinalizer(nativeBitmap); 121 122 mIsMutable = isMutable; 123 mNinePatchChunk = ninePatchChunk; 124 mLayoutBounds = layoutBounds; 125 if (density >= 0) { 126 mDensity = density; 127 } 128 } 129 130 /** 131 * <p>Returns the density for this bitmap.</p> 132 * 133 * <p>The default density is the same density as the current display, 134 * unless the current application does not support different screen 135 * densities in which case it is 136 * {@link android.util.DisplayMetrics#DENSITY_DEFAULT}. Note that 137 * compatibility mode is determined by the application that was initially 138 * loaded into a process -- applications that share the same process should 139 * all have the same compatibility, or ensure they explicitly set the 140 * density of their bitmaps appropriately.</p> 141 * 142 * @return A scaling factor of the default density or {@link #DENSITY_NONE} 143 * if the scaling factor is unknown. 144 * 145 * @see #setDensity(int) 146 * @see android.util.DisplayMetrics#DENSITY_DEFAULT 147 * @see android.util.DisplayMetrics#densityDpi 148 * @see #DENSITY_NONE 149 */ 150 public int getDensity() { 151 return mDensity; 152 } 153 154 /** 155 * <p>Specifies the density for this bitmap. When the bitmap is 156 * drawn to a Canvas that also has a density, it will be scaled 157 * appropriately.</p> 158 * 159 * @param density The density scaling factor to use with this bitmap or 160 * {@link #DENSITY_NONE} if the density is unknown. 161 * 162 * @see #getDensity() 163 * @see android.util.DisplayMetrics#DENSITY_DEFAULT 164 * @see android.util.DisplayMetrics#densityDpi 165 * @see #DENSITY_NONE 166 */ 167 public void setDensity(int density) { 168 mDensity = density; 169 } 170 171 /** 172 * Sets the nine patch chunk. 173 * 174 * @param chunk The definition of the nine patch 175 * 176 * @hide 177 */ 178 public void setNinePatchChunk(byte[] chunk) { 179 mNinePatchChunk = chunk; 180 } 181 182 /** 183 * Sets the layout bounds as an array of left, top, right, bottom integers 184 * @param bounds the array containing the padding values 185 * 186 * @hide 187 */ 188 public void setLayoutBounds(int[] bounds) { 189 mLayoutBounds = bounds; 190 } 191 192 /** 193 * Free the native object associated with this bitmap, and clear the 194 * reference to the pixel data. This will not free the pixel data synchronously; 195 * it simply allows it to be garbage collected if there are no other references. 196 * The bitmap is marked as "dead", meaning it will throw an exception if 197 * getPixels() or setPixels() is called, and will draw nothing. This operation 198 * cannot be reversed, so it should only be called if you are sure there are no 199 * further uses for the bitmap. This is an advanced call, and normally need 200 * not be called, since the normal GC process will free up this memory when 201 * there are no more references to this bitmap. 202 */ 203 public void recycle() { 204 if (!mRecycled) { 205 if (nativeRecycle(mNativeBitmap)) { 206 // return value indicates whether native pixel object was actually recycled. 207 // false indicates that it is still in use at the native level and these 208 // objects should not be collected now. They will be collected later when the 209 // Bitmap itself is collected. 210 mBuffer = null; 211 mNinePatchChunk = null; 212 } 213 mRecycled = true; 214 } 215 } 216 217 /** 218 * Returns true if this bitmap has been recycled. If so, then it is an error 219 * to try to access its pixels, and the bitmap will not draw. 220 * 221 * @return true if the bitmap has been recycled 222 */ 223 public final boolean isRecycled() { 224 return mRecycled; 225 } 226 227 /** 228 * Returns the generation ID of this bitmap. The generation ID changes 229 * whenever the bitmap is modified. This can be used as an efficient way to 230 * check if a bitmap has changed. 231 * 232 * @return The current generation ID for this bitmap. 233 */ 234 public int getGenerationId() { 235 return nativeGenerationId(mNativeBitmap); 236 } 237 238 /** 239 * This is called by methods that want to throw an exception if the bitmap 240 * has already been recycled. 241 */ 242 private void checkRecycled(String errorMessage) { 243 if (mRecycled) { 244 throw new IllegalStateException(errorMessage); 245 } 246 } 247 248 /** 249 * Common code for checking that x and y are >= 0 250 * 251 * @param x x coordinate to ensure is >= 0 252 * @param y y coordinate to ensure is >= 0 253 */ 254 private static void checkXYSign(int x, int y) { 255 if (x < 0) { 256 throw new IllegalArgumentException("x must be >= 0"); 257 } 258 if (y < 0) { 259 throw new IllegalArgumentException("y must be >= 0"); 260 } 261 } 262 263 /** 264 * Common code for checking that width and height are > 0 265 * 266 * @param width width to ensure is > 0 267 * @param height height to ensure is > 0 268 */ 269 private static void checkWidthHeight(int width, int height) { 270 if (width <= 0) { 271 throw new IllegalArgumentException("width must be > 0"); 272 } 273 if (height <= 0) { 274 throw new IllegalArgumentException("height must be > 0"); 275 } 276 } 277 278 /** 279 * Possible bitmap configurations. A bitmap configuration describes 280 * how pixels are stored. This affects the quality (color depth) as 281 * well as the ability to display transparent/translucent colors. 282 */ 283 public enum Config { 284 // these native values must match up with the enum in SkBitmap.h 285 286 /** 287 * Each pixel is stored as a single translucency (alpha) channel. 288 * This is very useful to efficiently store masks for instance. 289 * No color information is stored. 290 * With this configuration, each pixel requires 1 byte of memory. 291 */ 292 ALPHA_8 (2), 293 294 /** 295 * Each pixel is stored on 2 bytes and only the RGB channels are 296 * encoded: red is stored with 5 bits of precision (32 possible 297 * values), green is stored with 6 bits of precision (64 possible 298 * values) and blue is stored with 5 bits of precision. 299 * 300 * This configuration can produce slight visual artifacts depending 301 * on the configuration of the source. For instance, without 302 * dithering, the result might show a greenish tint. To get better 303 * results dithering should be applied. 304 * 305 * This configuration may be useful when using opaque bitmaps 306 * that do not require high color fidelity. 307 */ 308 RGB_565 (4), 309 310 /** 311 * Each pixel is stored on 2 bytes. The three RGB color channels 312 * and the alpha channel (translucency) are stored with a 4 bits 313 * precision (16 possible values.) 314 * 315 * This configuration is mostly useful if the application needs 316 * to store translucency information but also needs to save 317 * memory. 318 * 319 * It is recommended to use {@link #ARGB_8888} instead of this 320 * configuration. 321 * 322 * @deprecated Because of the poor quality of this configuration, 323 * it is advised to use {@link #ARGB_8888} instead. 324 */ 325 @Deprecated 326 ARGB_4444 (5), 327 328 /** 329 * Each pixel is stored on 4 bytes. Each channel (RGB and alpha 330 * for translucency) is stored with 8 bits of precision (256 331 * possible values.) 332 * 333 * This configuration is very flexible and offers the best 334 * quality. It should be used whenever possible. 335 */ 336 ARGB_8888 (6); 337 338 final int nativeInt; 339 340 @SuppressWarnings({"deprecation"}) 341 private static Config sConfigs[] = { 342 null, null, ALPHA_8, null, RGB_565, ARGB_4444, ARGB_8888 343 }; 344 345 Config(int ni) { 346 this.nativeInt = ni; 347 } 348 349 static Config nativeToConfig(int ni) { 350 return sConfigs[ni]; 351 } 352 } 353 354 /** 355 * <p>Copy the bitmap's pixels into the specified buffer (allocated by the 356 * caller). An exception is thrown if the buffer is not large enough to 357 * hold all of the pixels (taking into account the number of bytes per 358 * pixel) or if the Buffer subclass is not one of the support types 359 * (ByteBuffer, ShortBuffer, IntBuffer).</p> 360 * <p>The content of the bitmap is copied into the buffer as-is. This means 361 * that if this bitmap stores its pixels pre-multiplied 362 * (see {@link #isPremultiplied()}, the values in the buffer will also be 363 * pre-multiplied.</p> 364 * <p>After this method returns, the current position of the buffer is 365 * updated: the position is incremented by the number of elements written 366 * in the buffer.</p> 367 */ 368 public void copyPixelsToBuffer(Buffer dst) { 369 int elements = dst.remaining(); 370 int shift; 371 if (dst instanceof ByteBuffer) { 372 shift = 0; 373 } else if (dst instanceof ShortBuffer) { 374 shift = 1; 375 } else if (dst instanceof IntBuffer) { 376 shift = 2; 377 } else { 378 throw new RuntimeException("unsupported Buffer subclass"); 379 } 380 381 long bufferSize = (long)elements << shift; 382 long pixelSize = getByteCount(); 383 384 if (bufferSize < pixelSize) { 385 throw new RuntimeException("Buffer not large enough for pixels"); 386 } 387 388 nativeCopyPixelsToBuffer(mNativeBitmap, dst); 389 390 // now update the buffer's position 391 int position = dst.position(); 392 position += pixelSize >> shift; 393 dst.position(position); 394 } 395 396 /** 397 * <p>Copy the pixels from the buffer, beginning at the current position, 398 * overwriting the bitmap's pixels. The data in the buffer is not changed 399 * in any way (unlike setPixels(), which converts from unpremultipled 32bit 400 * to whatever the bitmap's native format is.</p> 401 * <p>After this method returns, the current position of the buffer is 402 * updated: the position is incremented by the number of elements read from 403 * the buffer. If you need to read the bitmap from the buffer again you must 404 * first rewind the buffer.</p> 405 */ 406 public void copyPixelsFromBuffer(Buffer src) { 407 checkRecycled("copyPixelsFromBuffer called on recycled bitmap"); 408 409 int elements = src.remaining(); 410 int shift; 411 if (src instanceof ByteBuffer) { 412 shift = 0; 413 } else if (src instanceof ShortBuffer) { 414 shift = 1; 415 } else if (src instanceof IntBuffer) { 416 shift = 2; 417 } else { 418 throw new RuntimeException("unsupported Buffer subclass"); 419 } 420 421 long bufferBytes = (long) elements << shift; 422 long bitmapBytes = getByteCount(); 423 424 if (bufferBytes < bitmapBytes) { 425 throw new RuntimeException("Buffer not large enough for pixels"); 426 } 427 428 nativeCopyPixelsFromBuffer(mNativeBitmap, src); 429 430 // now update the buffer's position 431 int position = src.position(); 432 position += bitmapBytes >> shift; 433 src.position(position); 434 } 435 436 /** 437 * Tries to make a new bitmap based on the dimensions of this bitmap, 438 * setting the new bitmap's config to the one specified, and then copying 439 * this bitmap's pixels into the new bitmap. If the conversion is not 440 * supported, or the allocator fails, then this returns NULL. The returned 441 * bitmap initially has the same density as the original. 442 * 443 * @param config The desired config for the resulting bitmap 444 * @param isMutable True if the resulting bitmap should be mutable (i.e. 445 * its pixels can be modified) 446 * @return the new bitmap, or null if the copy could not be made. 447 */ 448 public Bitmap copy(Config config, boolean isMutable) { 449 checkRecycled("Can't copy a recycled bitmap"); 450 Bitmap b = nativeCopy(mNativeBitmap, config.nativeInt, isMutable); 451 if (b != null) { 452 b.mDensity = mDensity; 453 } 454 return b; 455 } 456 457 /** 458 * Creates a new bitmap, scaled from an existing bitmap, when possible. If the 459 * specified width and height are the same as the current width and height of 460 * the source btimap, the source bitmap is returned and now new bitmap is 461 * created. 462 * 463 * @param src The source bitmap. 464 * @param dstWidth The new bitmap's desired width. 465 * @param dstHeight The new bitmap's desired height. 466 * @param filter true if the source should be filtered. 467 * @return The new scaled bitmap or the source bitmap if no scaling is required. 468 */ 469 public static Bitmap createScaledBitmap(Bitmap src, int dstWidth, int dstHeight, 470 boolean filter) { 471 Matrix m; 472 synchronized (Bitmap.class) { 473 // small pool of just 1 matrix 474 m = sScaleMatrix; 475 sScaleMatrix = null; 476 } 477 478 if (m == null) { 479 m = new Matrix(); 480 } 481 482 final int width = src.getWidth(); 483 final int height = src.getHeight(); 484 final float sx = dstWidth / (float)width; 485 final float sy = dstHeight / (float)height; 486 m.setScale(sx, sy); 487 Bitmap b = Bitmap.createBitmap(src, 0, 0, width, height, m, filter); 488 489 synchronized (Bitmap.class) { 490 // do we need to check for null? why not just assign everytime? 491 if (sScaleMatrix == null) { 492 sScaleMatrix = m; 493 } 494 } 495 496 return b; 497 } 498 499 /** 500 * Returns an immutable bitmap from the source bitmap. The new bitmap may 501 * be the same object as source, or a copy may have been made. It is 502 * initialized with the same density as the original bitmap. 503 */ 504 public static Bitmap createBitmap(Bitmap src) { 505 return createBitmap(src, 0, 0, src.getWidth(), src.getHeight()); 506 } 507 508 /** 509 * Returns an immutable bitmap from the specified subset of the source 510 * bitmap. The new bitmap may be the same object as source, or a copy may 511 * have been made. It is initialized with the same density as the original 512 * bitmap. 513 * 514 * @param source The bitmap we are subsetting 515 * @param x The x coordinate of the first pixel in source 516 * @param y The y coordinate of the first pixel in source 517 * @param width The number of pixels in each row 518 * @param height The number of rows 519 * @return A copy of a subset of the source bitmap or the source bitmap itself. 520 */ 521 public static Bitmap createBitmap(Bitmap source, int x, int y, int width, int height) { 522 return createBitmap(source, x, y, width, height, null, false); 523 } 524 525 /** 526 * Returns an immutable bitmap from subset of the source bitmap, 527 * transformed by the optional matrix. The new bitmap may be the 528 * same object as source, or a copy may have been made. It is 529 * initialized with the same density as the original bitmap. 530 * 531 * If the source bitmap is immutable and the requested subset is the 532 * same as the source bitmap itself, then the source bitmap is 533 * returned and no new bitmap is created. 534 * 535 * @param source The bitmap we are subsetting 536 * @param x The x coordinate of the first pixel in source 537 * @param y The y coordinate of the first pixel in source 538 * @param width The number of pixels in each row 539 * @param height The number of rows 540 * @param m Optional matrix to be applied to the pixels 541 * @param filter true if the source should be filtered. 542 * Only applies if the matrix contains more than just 543 * translation. 544 * @return A bitmap that represents the specified subset of source 545 * @throws IllegalArgumentException if the x, y, width, height values are 546 * outside of the dimensions of the source bitmap. 547 */ 548 public static Bitmap createBitmap(Bitmap source, int x, int y, int width, int height, 549 Matrix m, boolean filter) { 550 551 checkXYSign(x, y); 552 checkWidthHeight(width, height); 553 if (x + width > source.getWidth()) { 554 throw new IllegalArgumentException("x + width must be <= bitmap.width()"); 555 } 556 if (y + height > source.getHeight()) { 557 throw new IllegalArgumentException("y + height must be <= bitmap.height()"); 558 } 559 560 // check if we can just return our argument unchanged 561 if (!source.isMutable() && x == 0 && y == 0 && width == source.getWidth() && 562 height == source.getHeight() && (m == null || m.isIdentity())) { 563 return source; 564 } 565 566 int neww = width; 567 int newh = height; 568 Canvas canvas = new Canvas(); 569 Bitmap bitmap; 570 Paint paint; 571 572 Rect srcR = new Rect(x, y, x + width, y + height); 573 RectF dstR = new RectF(0, 0, width, height); 574 575 Config newConfig = Config.ARGB_8888; 576 final Config config = source.getConfig(); 577 // GIF files generate null configs, assume ARGB_8888 578 if (config != null) { 579 switch (config) { 580 case RGB_565: 581 newConfig = Config.RGB_565; 582 break; 583 case ALPHA_8: 584 newConfig = Config.ALPHA_8; 585 break; 586 //noinspection deprecation 587 case ARGB_4444: 588 case ARGB_8888: 589 default: 590 newConfig = Config.ARGB_8888; 591 break; 592 } 593 } 594 595 if (m == null || m.isIdentity()) { 596 bitmap = createBitmap(neww, newh, newConfig, source.hasAlpha()); 597 paint = null; // not needed 598 } else { 599 final boolean transformed = !m.rectStaysRect(); 600 601 RectF deviceR = new RectF(); 602 m.mapRect(deviceR, dstR); 603 604 neww = Math.round(deviceR.width()); 605 newh = Math.round(deviceR.height()); 606 607 bitmap = createBitmap(neww, newh, transformed ? Config.ARGB_8888 : newConfig, 608 transformed || source.hasAlpha()); 609 610 canvas.translate(-deviceR.left, -deviceR.top); 611 canvas.concat(m); 612 613 paint = new Paint(); 614 paint.setFilterBitmap(filter); 615 if (transformed) { 616 paint.setAntiAlias(true); 617 } 618 } 619 620 // The new bitmap was created from a known bitmap source so assume that 621 // they use the same density 622 bitmap.mDensity = source.mDensity; 623 624 canvas.setBitmap(bitmap); 625 canvas.drawBitmap(source, srcR, dstR, paint); 626 canvas.setBitmap(null); 627 628 return bitmap; 629 } 630 631 /** 632 * Returns a mutable bitmap with the specified width and height. Its 633 * initial density is as per {@link #getDensity}. 634 * 635 * @param width The width of the bitmap 636 * @param height The height of the bitmap 637 * @param config The bitmap config to create. 638 * @throws IllegalArgumentException if the width or height are <= 0 639 */ 640 public static Bitmap createBitmap(int width, int height, Config config) { 641 return createBitmap(width, height, config, true); 642 } 643 644 /** 645 * Returns a mutable bitmap with the specified width and height. Its 646 * initial density is determined from the given {@link DisplayMetrics}. 647 * 648 * @param display Display metrics for the display this bitmap will be 649 * drawn on. 650 * @param width The width of the bitmap 651 * @param height The height of the bitmap 652 * @param config The bitmap config to create. 653 * @throws IllegalArgumentException if the width or height are <= 0 654 */ 655 public static Bitmap createBitmap(DisplayMetrics display, int width, 656 int height, Config config) { 657 return createBitmap(display, width, height, config, true); 658 } 659 660 /** 661 * Returns a mutable bitmap with the specified width and height. Its 662 * initial density is as per {@link #getDensity}. 663 * 664 * @param width The width of the bitmap 665 * @param height The height of the bitmap 666 * @param config The bitmap config to create. 667 * @param hasAlpha If the bitmap is ARGB_8888 this flag can be used to mark the 668 * bitmap as opaque. Doing so will clear the bitmap in black 669 * instead of transparent. 670 * 671 * @throws IllegalArgumentException if the width or height are <= 0 672 */ 673 private static Bitmap createBitmap(int width, int height, Config config, boolean hasAlpha) { 674 return createBitmap(null, width, height, config, hasAlpha); 675 } 676 677 /** 678 * Returns a mutable bitmap with the specified width and height. Its 679 * initial density is determined from the given {@link DisplayMetrics}. 680 * 681 * @param display Display metrics for the display this bitmap will be 682 * drawn on. 683 * @param width The width of the bitmap 684 * @param height The height of the bitmap 685 * @param config The bitmap config to create. 686 * @param hasAlpha If the bitmap is ARGB_8888 this flag can be used to mark the 687 * bitmap as opaque. Doing so will clear the bitmap in black 688 * instead of transparent. 689 * 690 * @throws IllegalArgumentException if the width or height are <= 0 691 */ 692 private static Bitmap createBitmap(DisplayMetrics display, int width, int height, 693 Config config, boolean hasAlpha) { 694 if (width <= 0 || height <= 0) { 695 throw new IllegalArgumentException("width and height must be > 0"); 696 } 697 Bitmap bm = nativeCreate(null, 0, width, width, height, config.nativeInt, true); 698 if (display != null) { 699 bm.mDensity = display.densityDpi; 700 } 701 if (config == Config.ARGB_8888 && !hasAlpha) { 702 nativeErase(bm.mNativeBitmap, 0xff000000); 703 nativeSetHasAlpha(bm.mNativeBitmap, hasAlpha); 704 } else { 705 // No need to initialize it to zeroes; it is backed by a VM byte array 706 // which is by definition preinitialized to all zeroes. 707 // 708 //nativeErase(bm.mNativeBitmap, 0); 709 } 710 return bm; 711 } 712 713 /** 714 * Returns a immutable bitmap with the specified width and height, with each 715 * pixel value set to the corresponding value in the colors array. Its 716 * initial density is as per {@link #getDensity}. 717 * 718 * @param colors Array of {@link Color} used to initialize the pixels. 719 * @param offset Number of values to skip before the first color in the 720 * array of colors. 721 * @param stride Number of colors in the array between rows (must be >= 722 * width or <= -width). 723 * @param width The width of the bitmap 724 * @param height The height of the bitmap 725 * @param config The bitmap config to create. If the config does not 726 * support per-pixel alpha (e.g. RGB_565), then the alpha 727 * bytes in the colors[] will be ignored (assumed to be FF) 728 * @throws IllegalArgumentException if the width or height are <= 0, or if 729 * the color array's length is less than the number of pixels. 730 */ 731 public static Bitmap createBitmap(int colors[], int offset, int stride, 732 int width, int height, Config config) { 733 return createBitmap(null, colors, offset, stride, width, height, config); 734 } 735 736 /** 737 * Returns a immutable bitmap with the specified width and height, with each 738 * pixel value set to the corresponding value in the colors array. Its 739 * initial density is determined from the given {@link DisplayMetrics}. 740 * 741 * @param display Display metrics for the display this bitmap will be 742 * drawn on. 743 * @param colors Array of {@link Color} used to initialize the pixels. 744 * @param offset Number of values to skip before the first color in the 745 * array of colors. 746 * @param stride Number of colors in the array between rows (must be >= 747 * width or <= -width). 748 * @param width The width of the bitmap 749 * @param height The height of the bitmap 750 * @param config The bitmap config to create. If the config does not 751 * support per-pixel alpha (e.g. RGB_565), then the alpha 752 * bytes in the colors[] will be ignored (assumed to be FF) 753 * @throws IllegalArgumentException if the width or height are <= 0, or if 754 * the color array's length is less than the number of pixels. 755 */ 756 public static Bitmap createBitmap(DisplayMetrics display, int colors[], 757 int offset, int stride, int width, int height, Config config) { 758 759 checkWidthHeight(width, height); 760 if (Math.abs(stride) < width) { 761 throw new IllegalArgumentException("abs(stride) must be >= width"); 762 } 763 int lastScanline = offset + (height - 1) * stride; 764 int length = colors.length; 765 if (offset < 0 || (offset + width > length) || lastScanline < 0 || 766 (lastScanline + width > length)) { 767 throw new ArrayIndexOutOfBoundsException(); 768 } 769 if (width <= 0 || height <= 0) { 770 throw new IllegalArgumentException("width and height must be > 0"); 771 } 772 Bitmap bm = nativeCreate(colors, offset, stride, width, height, 773 config.nativeInt, false); 774 if (display != null) { 775 bm.mDensity = display.densityDpi; 776 } 777 return bm; 778 } 779 780 /** 781 * Returns a immutable bitmap with the specified width and height, with each 782 * pixel value set to the corresponding value in the colors array. Its 783 * initial density is as per {@link #getDensity}. 784 * 785 * @param colors Array of {@link Color} used to initialize the pixels. 786 * This array must be at least as large as width * height. 787 * @param width The width of the bitmap 788 * @param height The height of the bitmap 789 * @param config The bitmap config to create. If the config does not 790 * support per-pixel alpha (e.g. RGB_565), then the alpha 791 * bytes in the colors[] will be ignored (assumed to be FF) 792 * @throws IllegalArgumentException if the width or height are <= 0, or if 793 * the color array's length is less than the number of pixels. 794 */ 795 public static Bitmap createBitmap(int colors[], int width, int height, Config config) { 796 return createBitmap(null, colors, 0, width, width, height, config); 797 } 798 799 /** 800 * Returns a immutable bitmap with the specified width and height, with each 801 * pixel value set to the corresponding value in the colors array. Its 802 * initial density is determined from the given {@link DisplayMetrics}. 803 * 804 * @param display Display metrics for the display this bitmap will be 805 * drawn on. 806 * @param colors Array of {@link Color} used to initialize the pixels. 807 * This array must be at least as large as width * height. 808 * @param width The width of the bitmap 809 * @param height The height of the bitmap 810 * @param config The bitmap config to create. If the config does not 811 * support per-pixel alpha (e.g. RGB_565), then the alpha 812 * bytes in the colors[] will be ignored (assumed to be FF) 813 * @throws IllegalArgumentException if the width or height are <= 0, or if 814 * the color array's length is less than the number of pixels. 815 */ 816 public static Bitmap createBitmap(DisplayMetrics display, int colors[], 817 int width, int height, Config config) { 818 return createBitmap(display, colors, 0, width, width, height, config); 819 } 820 821 /** 822 * Returns an optional array of private data, used by the UI system for 823 * some bitmaps. Not intended to be called by applications. 824 */ 825 public byte[] getNinePatchChunk() { 826 return mNinePatchChunk; 827 } 828 829 /** 830 * @hide 831 * @return the layout padding [left, right, top, bottom] 832 */ 833 public int[] getLayoutBounds() { 834 return mLayoutBounds; 835 } 836 837 /** 838 * Specifies the known formats a bitmap can be compressed into 839 */ 840 public enum CompressFormat { 841 JPEG (0), 842 PNG (1), 843 WEBP (2); 844 845 CompressFormat(int nativeInt) { 846 this.nativeInt = nativeInt; 847 } 848 final int nativeInt; 849 } 850 851 /** 852 * Number of bytes of temp storage we use for communicating between the 853 * native compressor and the java OutputStream. 854 */ 855 private final static int WORKING_COMPRESS_STORAGE = 4096; 856 857 /** 858 * Write a compressed version of the bitmap to the specified outputstream. 859 * If this returns true, the bitmap can be reconstructed by passing a 860 * corresponding inputstream to BitmapFactory.decodeStream(). Note: not 861 * all Formats support all bitmap configs directly, so it is possible that 862 * the returned bitmap from BitmapFactory could be in a different bitdepth, 863 * and/or may have lost per-pixel alpha (e.g. JPEG only supports opaque 864 * pixels). 865 * 866 * @param format The format of the compressed image 867 * @param quality Hint to the compressor, 0-100. 0 meaning compress for 868 * small size, 100 meaning compress for max quality. Some 869 * formats, like PNG which is lossless, will ignore the 870 * quality setting 871 * @param stream The outputstream to write the compressed data. 872 * @return true if successfully compressed to the specified stream. 873 */ 874 public boolean compress(CompressFormat format, int quality, OutputStream stream) { 875 checkRecycled("Can't compress a recycled bitmap"); 876 // do explicit check before calling the native method 877 if (stream == null) { 878 throw new NullPointerException(); 879 } 880 if (quality < 0 || quality > 100) { 881 throw new IllegalArgumentException("quality must be 0..100"); 882 } 883 return nativeCompress(mNativeBitmap, format.nativeInt, quality, 884 stream, new byte[WORKING_COMPRESS_STORAGE]); 885 } 886 887 /** 888 * Returns true if the bitmap is marked as mutable (i.e. can be drawn into) 889 */ 890 public final boolean isMutable() { 891 return mIsMutable; 892 } 893 894 /** 895 * <p>Indicates whether pixels stored in this bitmaps are stored pre-multiplied. 896 * When a pixel is pre-multiplied, the RGB components have been multiplied by 897 * the alpha component. For instance, if the original color is a 50% 898 * translucent red <code>(128, 255, 0, 0)</code>, the pre-multiplied form is 899 * <code>(128, 128, 0, 0)</code>.</p> 900 * 901 * <p>This method always returns false if {@link #getConfig()} is 902 * {@link Bitmap.Config#RGB_565}.</p> 903 * 904 * <p>This method only returns true if {@link #hasAlpha()} returns true. 905 * A bitmap with no alpha channel can be used both as a pre-multiplied and 906 * as a non pre-multiplied bitmap.</p> 907 * 908 * @return true if the underlying pixels have been pre-multiplied, false 909 * otherwise 910 */ 911 public final boolean isPremultiplied() { 912 return getConfig() != Config.RGB_565 && hasAlpha(); 913 } 914 915 /** Returns the bitmap's width */ 916 public final int getWidth() { 917 return mWidth == -1 ? mWidth = nativeWidth(mNativeBitmap) : mWidth; 918 } 919 920 /** Returns the bitmap's height */ 921 public final int getHeight() { 922 return mHeight == -1 ? mHeight = nativeHeight(mNativeBitmap) : mHeight; 923 } 924 925 /** 926 * Convenience for calling {@link #getScaledWidth(int)} with the target 927 * density of the given {@link Canvas}. 928 */ 929 public int getScaledWidth(Canvas canvas) { 930 return scaleFromDensity(getWidth(), mDensity, canvas.mDensity); 931 } 932 933 /** 934 * Convenience for calling {@link #getScaledHeight(int)} with the target 935 * density of the given {@link Canvas}. 936 */ 937 public int getScaledHeight(Canvas canvas) { 938 return scaleFromDensity(getHeight(), mDensity, canvas.mDensity); 939 } 940 941 /** 942 * Convenience for calling {@link #getScaledWidth(int)} with the target 943 * density of the given {@link DisplayMetrics}. 944 */ 945 public int getScaledWidth(DisplayMetrics metrics) { 946 return scaleFromDensity(getWidth(), mDensity, metrics.densityDpi); 947 } 948 949 /** 950 * Convenience for calling {@link #getScaledHeight(int)} with the target 951 * density of the given {@link DisplayMetrics}. 952 */ 953 public int getScaledHeight(DisplayMetrics metrics) { 954 return scaleFromDensity(getHeight(), mDensity, metrics.densityDpi); 955 } 956 957 /** 958 * Convenience method that returns the width of this bitmap divided 959 * by the density scale factor. 960 * 961 * @param targetDensity The density of the target canvas of the bitmap. 962 * @return The scaled width of this bitmap, according to the density scale factor. 963 */ 964 public int getScaledWidth(int targetDensity) { 965 return scaleFromDensity(getWidth(), mDensity, targetDensity); 966 } 967 968 /** 969 * Convenience method that returns the height of this bitmap divided 970 * by the density scale factor. 971 * 972 * @param targetDensity The density of the target canvas of the bitmap. 973 * @return The scaled height of this bitmap, according to the density scale factor. 974 */ 975 public int getScaledHeight(int targetDensity) { 976 return scaleFromDensity(getHeight(), mDensity, targetDensity); 977 } 978 979 /** 980 * @hide 981 */ 982 static public int scaleFromDensity(int size, int sdensity, int tdensity) { 983 if (sdensity == DENSITY_NONE || tdensity == DENSITY_NONE || sdensity == tdensity) { 984 return size; 985 } 986 987 // Scale by tdensity / sdensity, rounding up. 988 return ((size * tdensity) + (sdensity >> 1)) / sdensity; 989 } 990 991 /** 992 * Return the number of bytes between rows in the bitmap's pixels. Note that 993 * this refers to the pixels as stored natively by the bitmap. If you call 994 * getPixels() or setPixels(), then the pixels are uniformly treated as 995 * 32bit values, packed according to the Color class. 996 * 997 * @return number of bytes between rows of the native bitmap pixels. 998 */ 999 public final int getRowBytes() { 1000 return nativeRowBytes(mNativeBitmap); 1001 } 1002 1003 /** 1004 * Returns the number of bytes used to store this bitmap's pixels. 1005 */ 1006 public final int getByteCount() { 1007 // int result permits bitmaps up to 46,340 x 46,340 1008 return getRowBytes() * getHeight(); 1009 } 1010 1011 /** 1012 * If the bitmap's internal config is in one of the public formats, return 1013 * that config, otherwise return null. 1014 */ 1015 public final Config getConfig() { 1016 return Config.nativeToConfig(nativeConfig(mNativeBitmap)); 1017 } 1018 1019 /** Returns true if the bitmap's config supports per-pixel alpha, and 1020 * if the pixels may contain non-opaque alpha values. For some configs, 1021 * this is always false (e.g. RGB_565), since they do not support per-pixel 1022 * alpha. However, for configs that do, the bitmap may be flagged to be 1023 * known that all of its pixels are opaque. In this case hasAlpha() will 1024 * also return false. If a config such as ARGB_8888 is not so flagged, 1025 * it will return true by default. 1026 */ 1027 public final boolean hasAlpha() { 1028 return nativeHasAlpha(mNativeBitmap); 1029 } 1030 1031 /** 1032 * Tell the bitmap if all of the pixels are known to be opaque (false) 1033 * or if some of the pixels may contain non-opaque alpha values (true). 1034 * Note, for some configs (e.g. RGB_565) this call is ignored, since it 1035 * does not support per-pixel alpha values. 1036 * 1037 * This is meant as a drawing hint, as in some cases a bitmap that is known 1038 * to be opaque can take a faster drawing case than one that may have 1039 * non-opaque per-pixel alpha values. 1040 */ 1041 public void setHasAlpha(boolean hasAlpha) { 1042 nativeSetHasAlpha(mNativeBitmap, hasAlpha); 1043 } 1044 1045 /** 1046 * Indicates whether the renderer responsible for drawing this 1047 * bitmap should attempt to use mipmaps when this bitmap is drawn 1048 * scaled down. 1049 * 1050 * If you know that you are going to draw this bitmap at less than 1051 * 50% of its original size, you may be able to obtain a higher 1052 * quality 1053 * 1054 * This property is only a suggestion that can be ignored by the 1055 * renderer. It is not guaranteed to have any effect. 1056 * 1057 * @return true if the renderer should attempt to use mipmaps, 1058 * false otherwise 1059 * 1060 * @see #setHasMipMap(boolean) 1061 */ 1062 public final boolean hasMipMap() { 1063 return nativeHasMipMap(mNativeBitmap); 1064 } 1065 1066 /** 1067 * Set a hint for the renderer responsible for drawing this bitmap 1068 * indicating that it should attempt to use mipmaps when this bitmap 1069 * is drawn scaled down. 1070 * 1071 * If you know that you are going to draw this bitmap at less than 1072 * 50% of its original size, you may be able to obtain a higher 1073 * quality by turning this property on. 1074 * 1075 * Note that if the renderer respects this hint it might have to 1076 * allocate extra memory to hold the mipmap levels for this bitmap. 1077 * 1078 * This property is only a suggestion that can be ignored by the 1079 * renderer. It is not guaranteed to have any effect. 1080 * 1081 * @param hasMipMap indicates whether the renderer should attempt 1082 * to use mipmaps 1083 * 1084 * @see #hasMipMap() 1085 */ 1086 public final void setHasMipMap(boolean hasMipMap) { 1087 nativeSetHasMipMap(mNativeBitmap, hasMipMap); 1088 } 1089 1090 /** 1091 * Fills the bitmap's pixels with the specified {@link Color}. 1092 * 1093 * @throws IllegalStateException if the bitmap is not mutable. 1094 */ 1095 public void eraseColor(int c) { 1096 checkRecycled("Can't erase a recycled bitmap"); 1097 if (!isMutable()) { 1098 throw new IllegalStateException("cannot erase immutable bitmaps"); 1099 } 1100 nativeErase(mNativeBitmap, c); 1101 } 1102 1103 /** 1104 * Returns the {@link Color} at the specified location. Throws an exception 1105 * if x or y are out of bounds (negative or >= to the width or height 1106 * respectively). The returned color is a non-premultiplied ARGB value. 1107 * 1108 * @param x The x coordinate (0...width-1) of the pixel to return 1109 * @param y The y coordinate (0...height-1) of the pixel to return 1110 * @return The argb {@link Color} at the specified coordinate 1111 * @throws IllegalArgumentException if x, y exceed the bitmap's bounds 1112 */ 1113 public int getPixel(int x, int y) { 1114 checkRecycled("Can't call getPixel() on a recycled bitmap"); 1115 checkPixelAccess(x, y); 1116 return nativeGetPixel(mNativeBitmap, x, y); 1117 } 1118 1119 /** 1120 * Returns in pixels[] a copy of the data in the bitmap. Each value is 1121 * a packed int representing a {@link Color}. The stride parameter allows 1122 * the caller to allow for gaps in the returned pixels array between 1123 * rows. For normal packed results, just pass width for the stride value. 1124 * The returned colors are non-premultiplied ARGB values. 1125 * 1126 * @param pixels The array to receive the bitmap's colors 1127 * @param offset The first index to write into pixels[] 1128 * @param stride The number of entries in pixels[] to skip between 1129 * rows (must be >= bitmap's width). Can be negative. 1130 * @param x The x coordinate of the first pixel to read from 1131 * the bitmap 1132 * @param y The y coordinate of the first pixel to read from 1133 * the bitmap 1134 * @param width The number of pixels to read from each row 1135 * @param height The number of rows to read 1136 * 1137 * @throws IllegalArgumentException if x, y, width, height exceed the 1138 * bounds of the bitmap, or if abs(stride) < width. 1139 * @throws ArrayIndexOutOfBoundsException if the pixels array is too small 1140 * to receive the specified number of pixels. 1141 */ 1142 public void getPixels(int[] pixels, int offset, int stride, 1143 int x, int y, int width, int height) { 1144 checkRecycled("Can't call getPixels() on a recycled bitmap"); 1145 if (width == 0 || height == 0) { 1146 return; // nothing to do 1147 } 1148 checkPixelsAccess(x, y, width, height, offset, stride, pixels); 1149 nativeGetPixels(mNativeBitmap, pixels, offset, stride, 1150 x, y, width, height); 1151 } 1152 1153 /** 1154 * Shared code to check for illegal arguments passed to getPixel() 1155 * or setPixel() 1156 * 1157 * @param x x coordinate of the pixel 1158 * @param y y coordinate of the pixel 1159 */ 1160 private void checkPixelAccess(int x, int y) { 1161 checkXYSign(x, y); 1162 if (x >= getWidth()) { 1163 throw new IllegalArgumentException("x must be < bitmap.width()"); 1164 } 1165 if (y >= getHeight()) { 1166 throw new IllegalArgumentException("y must be < bitmap.height()"); 1167 } 1168 } 1169 1170 /** 1171 * Shared code to check for illegal arguments passed to getPixels() 1172 * or setPixels() 1173 * 1174 * @param x left edge of the area of pixels to access 1175 * @param y top edge of the area of pixels to access 1176 * @param width width of the area of pixels to access 1177 * @param height height of the area of pixels to access 1178 * @param offset offset into pixels[] array 1179 * @param stride number of elements in pixels[] between each logical row 1180 * @param pixels array to hold the area of pixels being accessed 1181 */ 1182 private void checkPixelsAccess(int x, int y, int width, int height, 1183 int offset, int stride, int pixels[]) { 1184 checkXYSign(x, y); 1185 if (width < 0) { 1186 throw new IllegalArgumentException("width must be >= 0"); 1187 } 1188 if (height < 0) { 1189 throw new IllegalArgumentException("height must be >= 0"); 1190 } 1191 if (x + width > getWidth()) { 1192 throw new IllegalArgumentException( 1193 "x + width must be <= bitmap.width()"); 1194 } 1195 if (y + height > getHeight()) { 1196 throw new IllegalArgumentException( 1197 "y + height must be <= bitmap.height()"); 1198 } 1199 if (Math.abs(stride) < width) { 1200 throw new IllegalArgumentException("abs(stride) must be >= width"); 1201 } 1202 int lastScanline = offset + (height - 1) * stride; 1203 int length = pixels.length; 1204 if (offset < 0 || (offset + width > length) 1205 || lastScanline < 0 1206 || (lastScanline + width > length)) { 1207 throw new ArrayIndexOutOfBoundsException(); 1208 } 1209 } 1210 1211 /** 1212 * <p>Write the specified {@link Color} into the bitmap (assuming it is 1213 * mutable) at the x,y coordinate. The color must be a 1214 * non-premultiplied ARGB value.</p> 1215 * 1216 * @param x The x coordinate of the pixel to replace (0...width-1) 1217 * @param y The y coordinate of the pixel to replace (0...height-1) 1218 * @param color The ARGB color to write into the bitmap 1219 * 1220 * @throws IllegalStateException if the bitmap is not mutable 1221 * @throws IllegalArgumentException if x, y are outside of the bitmap's 1222 * bounds. 1223 */ 1224 public void setPixel(int x, int y, int color) { 1225 checkRecycled("Can't call setPixel() on a recycled bitmap"); 1226 if (!isMutable()) { 1227 throw new IllegalStateException(); 1228 } 1229 checkPixelAccess(x, y); 1230 nativeSetPixel(mNativeBitmap, x, y, color); 1231 } 1232 1233 /** 1234 * <p>Replace pixels in the bitmap with the colors in the array. Each element 1235 * in the array is a packed int prepresenting a non-premultiplied ARGB 1236 * {@link Color}.</p> 1237 * 1238 * @param pixels The colors to write to the bitmap 1239 * @param offset The index of the first color to read from pixels[] 1240 * @param stride The number of colors in pixels[] to skip between rows. 1241 * Normally this value will be the same as the width of 1242 * the bitmap, but it can be larger (or negative). 1243 * @param x The x coordinate of the first pixel to write to in 1244 * the bitmap. 1245 * @param y The y coordinate of the first pixel to write to in 1246 * the bitmap. 1247 * @param width The number of colors to copy from pixels[] per row 1248 * @param height The number of rows to write to the bitmap 1249 * 1250 * @throws IllegalStateException if the bitmap is not mutable 1251 * @throws IllegalArgumentException if x, y, width, height are outside of 1252 * the bitmap's bounds. 1253 * @throws ArrayIndexOutOfBoundsException if the pixels array is too small 1254 * to receive the specified number of pixels. 1255 */ 1256 public void setPixels(int[] pixels, int offset, int stride, 1257 int x, int y, int width, int height) { 1258 checkRecycled("Can't call setPixels() on a recycled bitmap"); 1259 if (!isMutable()) { 1260 throw new IllegalStateException(); 1261 } 1262 if (width == 0 || height == 0) { 1263 return; // nothing to do 1264 } 1265 checkPixelsAccess(x, y, width, height, offset, stride, pixels); 1266 nativeSetPixels(mNativeBitmap, pixels, offset, stride, 1267 x, y, width, height); 1268 } 1269 1270 public static final Parcelable.Creator<Bitmap> CREATOR 1271 = new Parcelable.Creator<Bitmap>() { 1272 /** 1273 * Rebuilds a bitmap previously stored with writeToParcel(). 1274 * 1275 * @param p Parcel object to read the bitmap from 1276 * @return a new bitmap created from the data in the parcel 1277 */ 1278 public Bitmap createFromParcel(Parcel p) { 1279 Bitmap bm = nativeCreateFromParcel(p); 1280 if (bm == null) { 1281 throw new RuntimeException("Failed to unparcel Bitmap"); 1282 } 1283 return bm; 1284 } 1285 public Bitmap[] newArray(int size) { 1286 return new Bitmap[size]; 1287 } 1288 }; 1289 1290 /** 1291 * No special parcel contents. 1292 */ 1293 public int describeContents() { 1294 return 0; 1295 } 1296 1297 /** 1298 * Write the bitmap and its pixels to the parcel. The bitmap can be 1299 * rebuilt from the parcel by calling CREATOR.createFromParcel(). 1300 * @param p Parcel object to write the bitmap data into 1301 */ 1302 public void writeToParcel(Parcel p, int flags) { 1303 checkRecycled("Can't parcel a recycled bitmap"); 1304 if (!nativeWriteToParcel(mNativeBitmap, mIsMutable, mDensity, p)) { 1305 throw new RuntimeException("native writeToParcel failed"); 1306 } 1307 } 1308 1309 /** 1310 * Returns a new bitmap that captures the alpha values of the original. 1311 * This may be drawn with Canvas.drawBitmap(), where the color(s) will be 1312 * taken from the paint that is passed to the draw call. 1313 * 1314 * @return new bitmap containing the alpha channel of the original bitmap. 1315 */ 1316 public Bitmap extractAlpha() { 1317 return extractAlpha(null, null); 1318 } 1319 1320 /** 1321 * Returns a new bitmap that captures the alpha values of the original. 1322 * These values may be affected by the optional Paint parameter, which 1323 * can contain its own alpha, and may also contain a MaskFilter which 1324 * could change the actual dimensions of the resulting bitmap (e.g. 1325 * a blur maskfilter might enlarge the resulting bitmap). If offsetXY 1326 * is not null, it returns the amount to offset the returned bitmap so 1327 * that it will logically align with the original. For example, if the 1328 * paint contains a blur of radius 2, then offsetXY[] would contains 1329 * -2, -2, so that drawing the alpha bitmap offset by (-2, -2) and then 1330 * drawing the original would result in the blur visually aligning with 1331 * the original. 1332 * 1333 * <p>The initial density of the returned bitmap is the same as the original's. 1334 * 1335 * @param paint Optional paint used to modify the alpha values in the 1336 * resulting bitmap. Pass null for default behavior. 1337 * @param offsetXY Optional array that returns the X (index 0) and Y 1338 * (index 1) offset needed to position the returned bitmap 1339 * so that it visually lines up with the original. 1340 * @return new bitmap containing the (optionally modified by paint) alpha 1341 * channel of the original bitmap. This may be drawn with 1342 * Canvas.drawBitmap(), where the color(s) will be taken from the 1343 * paint that is passed to the draw call. 1344 */ 1345 public Bitmap extractAlpha(Paint paint, int[] offsetXY) { 1346 checkRecycled("Can't extractAlpha on a recycled bitmap"); 1347 int nativePaint = paint != null ? paint.mNativePaint : 0; 1348 Bitmap bm = nativeExtractAlpha(mNativeBitmap, nativePaint, offsetXY); 1349 if (bm == null) { 1350 throw new RuntimeException("Failed to extractAlpha on Bitmap"); 1351 } 1352 bm.mDensity = mDensity; 1353 return bm; 1354 } 1355 1356 /** 1357 * Given another bitmap, return true if it has the same dimensions, config, 1358 * and pixel data as this bitmap. If any of those differ, return false. 1359 * If other is null, return false. 1360 */ 1361 public boolean sameAs(Bitmap other) { 1362 return this == other || (other != null && nativeSameAs(mNativeBitmap, other.mNativeBitmap)); 1363 } 1364 1365 /** 1366 * Rebuilds any caches associated with the bitmap that are used for 1367 * drawing it. In the case of purgeable bitmaps, this call will attempt to 1368 * ensure that the pixels have been decoded. 1369 * If this is called on more than one bitmap in sequence, the priority is 1370 * given in LRU order (i.e. the last bitmap called will be given highest 1371 * priority). 1372 * 1373 * For bitmaps with no associated caches, this call is effectively a no-op, 1374 * and therefore is harmless. 1375 */ 1376 public void prepareToDraw() { 1377 nativePrepareToDraw(mNativeBitmap); 1378 } 1379 1380 private static class BitmapFinalizer { 1381 private final int mNativeBitmap; 1382 1383 BitmapFinalizer(int nativeBitmap) { 1384 mNativeBitmap = nativeBitmap; 1385 } 1386 1387 @Override 1388 public void finalize() { 1389 try { 1390 super.finalize(); 1391 } catch (Throwable t) { 1392 // Ignore 1393 } finally { 1394 nativeDestructor(mNativeBitmap); 1395 } 1396 } 1397 } 1398 1399 //////////// native methods 1400 1401 private static native Bitmap nativeCreate(int[] colors, int offset, 1402 int stride, int width, int height, 1403 int nativeConfig, boolean mutable); 1404 private static native Bitmap nativeCopy(int srcBitmap, int nativeConfig, 1405 boolean isMutable); 1406 private static native void nativeDestructor(int nativeBitmap); 1407 private static native boolean nativeRecycle(int nativeBitmap); 1408 1409 private static native boolean nativeCompress(int nativeBitmap, int format, 1410 int quality, OutputStream stream, 1411 byte[] tempStorage); 1412 private static native void nativeErase(int nativeBitmap, int color); 1413 private static native int nativeWidth(int nativeBitmap); 1414 private static native int nativeHeight(int nativeBitmap); 1415 private static native int nativeRowBytes(int nativeBitmap); 1416 private static native int nativeConfig(int nativeBitmap); 1417 1418 private static native int nativeGetPixel(int nativeBitmap, int x, int y); 1419 private static native void nativeGetPixels(int nativeBitmap, int[] pixels, 1420 int offset, int stride, int x, 1421 int y, int width, int height); 1422 1423 private static native void nativeSetPixel(int nativeBitmap, int x, int y, 1424 int color); 1425 private static native void nativeSetPixels(int nativeBitmap, int[] colors, 1426 int offset, int stride, int x, 1427 int y, int width, int height); 1428 private static native void nativeCopyPixelsToBuffer(int nativeBitmap, 1429 Buffer dst); 1430 private static native void nativeCopyPixelsFromBuffer(int nb, Buffer src); 1431 private static native int nativeGenerationId(int nativeBitmap); 1432 1433 private static native Bitmap nativeCreateFromParcel(Parcel p); 1434 // returns true on success 1435 private static native boolean nativeWriteToParcel(int nativeBitmap, 1436 boolean isMutable, 1437 int density, 1438 Parcel p); 1439 // returns a new bitmap built from the native bitmap's alpha, and the paint 1440 private static native Bitmap nativeExtractAlpha(int nativeBitmap, 1441 int nativePaint, 1442 int[] offsetXY); 1443 1444 private static native void nativePrepareToDraw(int nativeBitmap); 1445 private static native boolean nativeHasAlpha(int nativeBitmap); 1446 private static native void nativeSetHasAlpha(int nBitmap, boolean hasAlpha); 1447 private static native boolean nativeHasMipMap(int nativeBitmap); 1448 private static native void nativeSetHasMipMap(int nBitmap, boolean hasMipMap); 1449 private static native boolean nativeSameAs(int nb0, int nb1); 1450 1451 /* package */ final int ni() { 1452 return mNativeBitmap; 1453 } 1454 } 1455