1 /* 2 * Copyright (C) 2012 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.hardware.camera2; 18 19 import android.annotation.NonNull; 20 import android.annotation.Nullable; 21 import android.annotation.UnsupportedAppUsage; 22 import android.hardware.camera2.impl.CameraMetadataNative; 23 import android.hardware.camera2.impl.CaptureResultExtras; 24 import android.hardware.camera2.impl.PublicKey; 25 import android.hardware.camera2.impl.SyntheticKey; 26 import android.hardware.camera2.utils.TypeReference; 27 import android.util.Log; 28 import android.util.Rational; 29 30 import java.util.List; 31 32 /** 33 * <p>The subset of the results of a single image capture from the image sensor.</p> 34 * 35 * <p>Contains a subset of the final configuration for the capture hardware (sensor, lens, 36 * flash), the processing pipeline, the control algorithms, and the output 37 * buffers.</p> 38 * 39 * <p>CaptureResults are produced by a {@link CameraDevice} after processing a 40 * {@link CaptureRequest}. All properties listed for capture requests can also 41 * be queried on the capture result, to determine the final values used for 42 * capture. The result also includes additional metadata about the state of the 43 * camera device during the capture.</p> 44 * 45 * <p>Not all properties returned by {@link CameraCharacteristics#getAvailableCaptureResultKeys()} 46 * are necessarily available. Some results are {@link CaptureResult partial} and will 47 * not have every key set. Only {@link TotalCaptureResult total} results are guaranteed to have 48 * every key available that was enabled by the request.</p> 49 * 50 * <p>{@link CaptureResult} objects are immutable.</p> 51 * 52 */ 53 public class CaptureResult extends CameraMetadata<CaptureResult.Key<?>> { 54 55 private static final String TAG = "CaptureResult"; 56 private static final boolean VERBOSE = false; 57 58 /** 59 * A {@code Key} is used to do capture result field lookups with 60 * {@link CaptureResult#get}. 61 * 62 * <p>For example, to get the timestamp corresponding to the exposure of the first row: 63 * <code><pre> 64 * long timestamp = captureResult.get(CaptureResult.SENSOR_TIMESTAMP); 65 * </pre></code> 66 * </p> 67 * 68 * <p>To enumerate over all possible keys for {@link CaptureResult}, see 69 * {@link CameraCharacteristics#getAvailableCaptureResultKeys}.</p> 70 * 71 * @see CaptureResult#get 72 * @see CameraCharacteristics#getAvailableCaptureResultKeys 73 */ 74 public final static class Key<T> { 75 private final CameraMetadataNative.Key<T> mKey; 76 77 /** 78 * Visible for testing and vendor extensions only. 79 * 80 * @hide 81 */ 82 @UnsupportedAppUsage Key(String name, Class<T> type, long vendorId)83 public Key(String name, Class<T> type, long vendorId) { 84 mKey = new CameraMetadataNative.Key<T>(name, type, vendorId); 85 } 86 87 /** 88 * Visible for testing and vendor extensions only. 89 * 90 * @hide 91 */ Key(String name, String fallbackName, Class<T> type)92 public Key(String name, String fallbackName, Class<T> type) { 93 mKey = new CameraMetadataNative.Key<T>(name, fallbackName, type); 94 } 95 96 /** 97 * Construct a new Key with a given name and type. 98 * 99 * <p>Normally, applications should use the existing Key definitions in 100 * {@link CaptureResult}, and not need to construct their own Key objects. However, they may 101 * be useful for testing purposes and for defining custom capture result fields.</p> 102 */ Key(@onNull String name, @NonNull Class<T> type)103 public Key(@NonNull String name, @NonNull Class<T> type) { 104 mKey = new CameraMetadataNative.Key<T>(name, type); 105 } 106 107 /** 108 * Visible for testing and vendor extensions only. 109 * 110 * @hide 111 */ 112 @UnsupportedAppUsage Key(String name, TypeReference<T> typeReference)113 public Key(String name, TypeReference<T> typeReference) { 114 mKey = new CameraMetadataNative.Key<T>(name, typeReference); 115 } 116 117 /** 118 * Return a camelCase, period separated name formatted like: 119 * {@code "root.section[.subsections].name"}. 120 * 121 * <p>Built-in keys exposed by the Android SDK are always prefixed with {@code "android."}; 122 * keys that are device/platform-specific are prefixed with {@code "com."}.</p> 123 * 124 * <p>For example, {@code CameraCharacteristics.SCALER_STREAM_CONFIGURATION_MAP} would 125 * have a name of {@code "android.scaler.streamConfigurationMap"}; whereas a device 126 * specific key might look like {@code "com.google.nexus.data.private"}.</p> 127 * 128 * @return String representation of the key name 129 */ 130 @NonNull getName()131 public String getName() { 132 return mKey.getName(); 133 } 134 135 /** 136 * Return vendor tag id. 137 * 138 * @hide 139 */ getVendorId()140 public long getVendorId() { 141 return mKey.getVendorId(); 142 } 143 144 /** 145 * {@inheritDoc} 146 */ 147 @Override hashCode()148 public final int hashCode() { 149 return mKey.hashCode(); 150 } 151 152 /** 153 * {@inheritDoc} 154 */ 155 @SuppressWarnings("unchecked") 156 @Override equals(Object o)157 public final boolean equals(Object o) { 158 return o instanceof Key && ((Key<T>)o).mKey.equals(mKey); 159 } 160 161 /** 162 * Return this {@link Key} as a string representation. 163 * 164 * <p>{@code "CaptureResult.Key(%s)"}, where {@code %s} represents 165 * the name of this key as returned by {@link #getName}.</p> 166 * 167 * @return string representation of {@link Key} 168 */ 169 @NonNull 170 @Override toString()171 public String toString() { 172 return String.format("CaptureResult.Key(%s)", mKey.getName()); 173 } 174 175 /** 176 * Visible for CameraMetadataNative implementation only; do not use. 177 * 178 * TODO: Make this private or remove it altogether. 179 * 180 * @hide 181 */ 182 @UnsupportedAppUsage getNativeKey()183 public CameraMetadataNative.Key<T> getNativeKey() { 184 return mKey; 185 } 186 187 @SuppressWarnings({ "unchecked" }) Key(CameraMetadataNative.Key<?> nativeKey)188 /*package*/ Key(CameraMetadataNative.Key<?> nativeKey) { 189 mKey = (CameraMetadataNative.Key<T>) nativeKey; 190 } 191 } 192 193 @UnsupportedAppUsage 194 private final CameraMetadataNative mResults; 195 private final CaptureRequest mRequest; 196 private final int mSequenceId; 197 private final long mFrameNumber; 198 199 /** 200 * Takes ownership of the passed-in properties object 201 * 202 * <p>For internal use only</p> 203 * @hide 204 */ CaptureResult(CameraMetadataNative results, CaptureRequest parent, CaptureResultExtras extras)205 public CaptureResult(CameraMetadataNative results, CaptureRequest parent, 206 CaptureResultExtras extras) { 207 if (results == null) { 208 throw new IllegalArgumentException("results was null"); 209 } 210 211 if (parent == null) { 212 throw new IllegalArgumentException("parent was null"); 213 } 214 215 if (extras == null) { 216 throw new IllegalArgumentException("extras was null"); 217 } 218 219 mResults = CameraMetadataNative.move(results); 220 if (mResults.isEmpty()) { 221 throw new AssertionError("Results must not be empty"); 222 } 223 setNativeInstance(mResults); 224 mRequest = parent; 225 mSequenceId = extras.getRequestId(); 226 mFrameNumber = extras.getFrameNumber(); 227 } 228 229 /** 230 * Returns a copy of the underlying {@link CameraMetadataNative}. 231 * @hide 232 */ getNativeCopy()233 public CameraMetadataNative getNativeCopy() { 234 return new CameraMetadataNative(mResults); 235 } 236 237 /** 238 * Creates a request-less result. 239 * 240 * <p><strong>For testing only.</strong></p> 241 * @hide 242 */ CaptureResult(CameraMetadataNative results, int sequenceId)243 public CaptureResult(CameraMetadataNative results, int sequenceId) { 244 if (results == null) { 245 throw new IllegalArgumentException("results was null"); 246 } 247 248 mResults = CameraMetadataNative.move(results); 249 if (mResults.isEmpty()) { 250 throw new AssertionError("Results must not be empty"); 251 } 252 253 setNativeInstance(mResults); 254 mRequest = null; 255 mSequenceId = sequenceId; 256 mFrameNumber = -1; 257 } 258 259 /** 260 * Get a capture result field value. 261 * 262 * <p>The field definitions can be found in {@link CaptureResult}.</p> 263 * 264 * <p>Querying the value for the same key more than once will return a value 265 * which is equal to the previous queried value.</p> 266 * 267 * @throws IllegalArgumentException if the key was not valid 268 * 269 * @param key The result field to read. 270 * @return The value of that key, or {@code null} if the field is not set. 271 */ 272 @Nullable get(Key<T> key)273 public <T> T get(Key<T> key) { 274 T value = mResults.get(key); 275 if (VERBOSE) Log.v(TAG, "#get for Key = " + key.getName() + ", returned value = " + value); 276 return value; 277 } 278 279 /** 280 * {@inheritDoc} 281 * @hide 282 */ 283 @SuppressWarnings("unchecked") 284 @Override getProtected(Key<?> key)285 protected <T> T getProtected(Key<?> key) { 286 return (T) mResults.get(key); 287 } 288 289 /** 290 * {@inheritDoc} 291 * @hide 292 */ 293 @SuppressWarnings("unchecked") 294 @Override getKeyClass()295 protected Class<Key<?>> getKeyClass() { 296 Object thisClass = Key.class; 297 return (Class<Key<?>>)thisClass; 298 } 299 300 /** 301 * Dumps the native metadata contents to logcat. 302 * 303 * <p>Visibility for testing/debugging only. The results will not 304 * include any synthesized keys, as they are invisible to the native layer.</p> 305 * 306 * @hide 307 */ dumpToLog()308 public void dumpToLog() { 309 mResults.dumpToLog(); 310 } 311 312 /** 313 * {@inheritDoc} 314 */ 315 @Override 316 @NonNull getKeys()317 public List<Key<?>> getKeys() { 318 // Force the javadoc for this function to show up on the CaptureResult page 319 return super.getKeys(); 320 } 321 322 /** 323 * Get the request associated with this result. 324 * 325 * <p>Whenever a request has been fully or partially captured, with 326 * {@link CameraCaptureSession.CaptureCallback#onCaptureCompleted} or 327 * {@link CameraCaptureSession.CaptureCallback#onCaptureProgressed}, the {@code result}'s 328 * {@code getRequest()} will return that {@code request}. 329 * </p> 330 * 331 * <p>For example, 332 * <code><pre>cameraDevice.capture(someRequest, new CaptureCallback() { 333 * {@literal @}Override 334 * void onCaptureCompleted(CaptureRequest myRequest, CaptureResult myResult) { 335 * assert(myResult.getRequest.equals(myRequest) == true); 336 * } 337 * }, null); 338 * </code></pre> 339 * </p> 340 * 341 * @return The request associated with this result. Never {@code null}. 342 */ 343 @NonNull getRequest()344 public CaptureRequest getRequest() { 345 return mRequest; 346 } 347 348 /** 349 * Get the frame number associated with this result. 350 * 351 * <p>Whenever a request has been processed, regardless of failure or success, 352 * it gets a unique frame number assigned to its future result/failure.</p> 353 * 354 * <p>For the same type of request (capturing from the camera device or reprocessing), this 355 * value monotonically increments, starting with 0, for every new result or failure and the 356 * scope is the lifetime of the {@link CameraDevice}. Between different types of requests, 357 * the frame number may not monotonically increment. For example, the frame number of a newer 358 * reprocess result may be smaller than the frame number of an older result of capturing new 359 * images from the camera device, but the frame number of a newer reprocess result will never be 360 * smaller than the frame number of an older reprocess result.</p> 361 * 362 * @return The frame number 363 * 364 * @see CameraDevice#createCaptureRequest 365 * @see CameraDevice#createReprocessCaptureRequest 366 */ getFrameNumber()367 public long getFrameNumber() { 368 return mFrameNumber; 369 } 370 371 /** 372 * The sequence ID for this failure that was returned by the 373 * {@link CameraCaptureSession#capture} family of functions. 374 * 375 * <p>The sequence ID is a unique monotonically increasing value starting from 0, 376 * incremented every time a new group of requests is submitted to the CameraDevice.</p> 377 * 378 * @return int The ID for the sequence of requests that this capture result is a part of 379 * 380 * @see CameraCaptureSession.CaptureCallback#onCaptureSequenceCompleted 381 * @see CameraCaptureSession.CaptureCallback#onCaptureSequenceAborted 382 */ getSequenceId()383 public int getSequenceId() { 384 return mSequenceId; 385 } 386 387 /*@O~@~@~@~@~@~@~@~@~@~@~@~@~@~@~@~@~@~@~@~@~@~@~@~@~@~@~@~@~@~@~@~@~@~ 388 * The key entries below this point are generated from metadata 389 * definitions in /system/media/camera/docs. Do not modify by hand or 390 * modify the comment blocks at the start or end. 391 *~@~@~@~@~@~@~@~@~@~@~@~@~@~@~@~@~@~@~@~@~@~@~@~@~@~@~@~@~@~@~@~@~@~@~*/ 392 393 /** 394 * <p>The mode control selects how the image data is converted from the 395 * sensor's native color into linear sRGB color.</p> 396 * <p>When auto-white balance (AWB) is enabled with {@link CaptureRequest#CONTROL_AWB_MODE android.control.awbMode}, this 397 * control is overridden by the AWB routine. When AWB is disabled, the 398 * application controls how the color mapping is performed.</p> 399 * <p>We define the expected processing pipeline below. For consistency 400 * across devices, this is always the case with TRANSFORM_MATRIX.</p> 401 * <p>When either FULL or HIGH_QUALITY is used, the camera device may 402 * do additional processing but {@link CaptureRequest#COLOR_CORRECTION_GAINS android.colorCorrection.gains} and 403 * {@link CaptureRequest#COLOR_CORRECTION_TRANSFORM android.colorCorrection.transform} will still be provided by the 404 * camera device (in the results) and be roughly correct.</p> 405 * <p>Switching to TRANSFORM_MATRIX and using the data provided from 406 * FAST or HIGH_QUALITY will yield a picture with the same white point 407 * as what was produced by the camera device in the earlier frame.</p> 408 * <p>The expected processing pipeline is as follows:</p> 409 * <p><img alt="White balance processing pipeline" src="/reference/images/camera2/metadata/android.colorCorrection.mode/processing_pipeline.png" /></p> 410 * <p>The white balance is encoded by two values, a 4-channel white-balance 411 * gain vector (applied in the Bayer domain), and a 3x3 color transform 412 * matrix (applied after demosaic).</p> 413 * <p>The 4-channel white-balance gains are defined as:</p> 414 * <pre><code>{@link CaptureRequest#COLOR_CORRECTION_GAINS android.colorCorrection.gains} = [ R G_even G_odd B ] 415 * </code></pre> 416 * <p>where <code>G_even</code> is the gain for green pixels on even rows of the 417 * output, and <code>G_odd</code> is the gain for green pixels on the odd rows. 418 * These may be identical for a given camera device implementation; if 419 * the camera device does not support a separate gain for even/odd green 420 * channels, it will use the <code>G_even</code> value, and write <code>G_odd</code> equal to 421 * <code>G_even</code> in the output result metadata.</p> 422 * <p>The matrices for color transforms are defined as a 9-entry vector:</p> 423 * <pre><code>{@link CaptureRequest#COLOR_CORRECTION_TRANSFORM android.colorCorrection.transform} = [ I0 I1 I2 I3 I4 I5 I6 I7 I8 ] 424 * </code></pre> 425 * <p>which define a transform from input sensor colors, <code>P_in = [ r g b ]</code>, 426 * to output linear sRGB, <code>P_out = [ r' g' b' ]</code>,</p> 427 * <p>with colors as follows:</p> 428 * <pre><code>r' = I0r + I1g + I2b 429 * g' = I3r + I4g + I5b 430 * b' = I6r + I7g + I8b 431 * </code></pre> 432 * <p>Both the input and output value ranges must match. Overflow/underflow 433 * values are clipped to fit within the range.</p> 434 * <p><b>Possible values:</b> 435 * <ul> 436 * <li>{@link #COLOR_CORRECTION_MODE_TRANSFORM_MATRIX TRANSFORM_MATRIX}</li> 437 * <li>{@link #COLOR_CORRECTION_MODE_FAST FAST}</li> 438 * <li>{@link #COLOR_CORRECTION_MODE_HIGH_QUALITY HIGH_QUALITY}</li> 439 * </ul></p> 440 * <p><b>Optional</b> - The value for this key may be {@code null} on some devices.</p> 441 * <p><b>Full capability</b> - 442 * Present on all camera devices that report being {@link CameraCharacteristics#INFO_SUPPORTED_HARDWARE_LEVEL_FULL HARDWARE_LEVEL_FULL} devices in the 443 * {@link CameraCharacteristics#INFO_SUPPORTED_HARDWARE_LEVEL android.info.supportedHardwareLevel} key</p> 444 * 445 * @see CaptureRequest#COLOR_CORRECTION_GAINS 446 * @see CaptureRequest#COLOR_CORRECTION_TRANSFORM 447 * @see CaptureRequest#CONTROL_AWB_MODE 448 * @see CameraCharacteristics#INFO_SUPPORTED_HARDWARE_LEVEL 449 * @see #COLOR_CORRECTION_MODE_TRANSFORM_MATRIX 450 * @see #COLOR_CORRECTION_MODE_FAST 451 * @see #COLOR_CORRECTION_MODE_HIGH_QUALITY 452 */ 453 @PublicKey 454 @NonNull 455 public static final Key<Integer> COLOR_CORRECTION_MODE = 456 new Key<Integer>("android.colorCorrection.mode", int.class); 457 458 /** 459 * <p>A color transform matrix to use to transform 460 * from sensor RGB color space to output linear sRGB color space.</p> 461 * <p>This matrix is either set by the camera device when the request 462 * {@link CaptureRequest#COLOR_CORRECTION_MODE android.colorCorrection.mode} is not TRANSFORM_MATRIX, or 463 * directly by the application in the request when the 464 * {@link CaptureRequest#COLOR_CORRECTION_MODE android.colorCorrection.mode} is TRANSFORM_MATRIX.</p> 465 * <p>In the latter case, the camera device may round the matrix to account 466 * for precision issues; the final rounded matrix should be reported back 467 * in this matrix result metadata. The transform should keep the magnitude 468 * of the output color values within <code>[0, 1.0]</code> (assuming input color 469 * values is within the normalized range <code>[0, 1.0]</code>), or clipping may occur.</p> 470 * <p>The valid range of each matrix element varies on different devices, but 471 * values within [-1.5, 3.0] are guaranteed not to be clipped.</p> 472 * <p><b>Units</b>: Unitless scale factors</p> 473 * <p><b>Optional</b> - The value for this key may be {@code null} on some devices.</p> 474 * <p><b>Full capability</b> - 475 * Present on all camera devices that report being {@link CameraCharacteristics#INFO_SUPPORTED_HARDWARE_LEVEL_FULL HARDWARE_LEVEL_FULL} devices in the 476 * {@link CameraCharacteristics#INFO_SUPPORTED_HARDWARE_LEVEL android.info.supportedHardwareLevel} key</p> 477 * 478 * @see CaptureRequest#COLOR_CORRECTION_MODE 479 * @see CameraCharacteristics#INFO_SUPPORTED_HARDWARE_LEVEL 480 */ 481 @PublicKey 482 @NonNull 483 public static final Key<android.hardware.camera2.params.ColorSpaceTransform> COLOR_CORRECTION_TRANSFORM = 484 new Key<android.hardware.camera2.params.ColorSpaceTransform>("android.colorCorrection.transform", android.hardware.camera2.params.ColorSpaceTransform.class); 485 486 /** 487 * <p>Gains applying to Bayer raw color channels for 488 * white-balance.</p> 489 * <p>These per-channel gains are either set by the camera device 490 * when the request {@link CaptureRequest#COLOR_CORRECTION_MODE android.colorCorrection.mode} is not 491 * TRANSFORM_MATRIX, or directly by the application in the 492 * request when the {@link CaptureRequest#COLOR_CORRECTION_MODE android.colorCorrection.mode} is 493 * TRANSFORM_MATRIX.</p> 494 * <p>The gains in the result metadata are the gains actually 495 * applied by the camera device to the current frame.</p> 496 * <p>The valid range of gains varies on different devices, but gains 497 * between [1.0, 3.0] are guaranteed not to be clipped. Even if a given 498 * device allows gains below 1.0, this is usually not recommended because 499 * this can create color artifacts.</p> 500 * <p><b>Units</b>: Unitless gain factors</p> 501 * <p><b>Optional</b> - The value for this key may be {@code null} on some devices.</p> 502 * <p><b>Full capability</b> - 503 * Present on all camera devices that report being {@link CameraCharacteristics#INFO_SUPPORTED_HARDWARE_LEVEL_FULL HARDWARE_LEVEL_FULL} devices in the 504 * {@link CameraCharacteristics#INFO_SUPPORTED_HARDWARE_LEVEL android.info.supportedHardwareLevel} key</p> 505 * 506 * @see CaptureRequest#COLOR_CORRECTION_MODE 507 * @see CameraCharacteristics#INFO_SUPPORTED_HARDWARE_LEVEL 508 */ 509 @PublicKey 510 @NonNull 511 public static final Key<android.hardware.camera2.params.RggbChannelVector> COLOR_CORRECTION_GAINS = 512 new Key<android.hardware.camera2.params.RggbChannelVector>("android.colorCorrection.gains", android.hardware.camera2.params.RggbChannelVector.class); 513 514 /** 515 * <p>Mode of operation for the chromatic aberration correction algorithm.</p> 516 * <p>Chromatic (color) aberration is caused by the fact that different wavelengths of light 517 * can not focus on the same point after exiting from the lens. This metadata defines 518 * the high level control of chromatic aberration correction algorithm, which aims to 519 * minimize the chromatic artifacts that may occur along the object boundaries in an 520 * image.</p> 521 * <p>FAST/HIGH_QUALITY both mean that camera device determined aberration 522 * correction will be applied. HIGH_QUALITY mode indicates that the camera device will 523 * use the highest-quality aberration correction algorithms, even if it slows down 524 * capture rate. FAST means the camera device will not slow down capture rate when 525 * applying aberration correction.</p> 526 * <p>LEGACY devices will always be in FAST mode.</p> 527 * <p><b>Possible values:</b> 528 * <ul> 529 * <li>{@link #COLOR_CORRECTION_ABERRATION_MODE_OFF OFF}</li> 530 * <li>{@link #COLOR_CORRECTION_ABERRATION_MODE_FAST FAST}</li> 531 * <li>{@link #COLOR_CORRECTION_ABERRATION_MODE_HIGH_QUALITY HIGH_QUALITY}</li> 532 * </ul></p> 533 * <p><b>Available values for this device:</b><br> 534 * {@link CameraCharacteristics#COLOR_CORRECTION_AVAILABLE_ABERRATION_MODES android.colorCorrection.availableAberrationModes}</p> 535 * <p>This key is available on all devices.</p> 536 * 537 * @see CameraCharacteristics#COLOR_CORRECTION_AVAILABLE_ABERRATION_MODES 538 * @see #COLOR_CORRECTION_ABERRATION_MODE_OFF 539 * @see #COLOR_CORRECTION_ABERRATION_MODE_FAST 540 * @see #COLOR_CORRECTION_ABERRATION_MODE_HIGH_QUALITY 541 */ 542 @PublicKey 543 @NonNull 544 public static final Key<Integer> COLOR_CORRECTION_ABERRATION_MODE = 545 new Key<Integer>("android.colorCorrection.aberrationMode", int.class); 546 547 /** 548 * <p>The desired setting for the camera device's auto-exposure 549 * algorithm's antibanding compensation.</p> 550 * <p>Some kinds of lighting fixtures, such as some fluorescent 551 * lights, flicker at the rate of the power supply frequency 552 * (60Hz or 50Hz, depending on country). While this is 553 * typically not noticeable to a person, it can be visible to 554 * a camera device. If a camera sets its exposure time to the 555 * wrong value, the flicker may become visible in the 556 * viewfinder as flicker or in a final captured image, as a 557 * set of variable-brightness bands across the image.</p> 558 * <p>Therefore, the auto-exposure routines of camera devices 559 * include antibanding routines that ensure that the chosen 560 * exposure value will not cause such banding. The choice of 561 * exposure time depends on the rate of flicker, which the 562 * camera device can detect automatically, or the expected 563 * rate can be selected by the application using this 564 * control.</p> 565 * <p>A given camera device may not support all of the possible 566 * options for the antibanding mode. The 567 * {@link CameraCharacteristics#CONTROL_AE_AVAILABLE_ANTIBANDING_MODES android.control.aeAvailableAntibandingModes} key contains 568 * the available modes for a given camera device.</p> 569 * <p>AUTO mode is the default if it is available on given 570 * camera device. When AUTO mode is not available, the 571 * default will be either 50HZ or 60HZ, and both 50HZ 572 * and 60HZ will be available.</p> 573 * <p>If manual exposure control is enabled (by setting 574 * {@link CaptureRequest#CONTROL_AE_MODE android.control.aeMode} or {@link CaptureRequest#CONTROL_MODE android.control.mode} to OFF), 575 * then this setting has no effect, and the application must 576 * ensure it selects exposure times that do not cause banding 577 * issues. The {@link CaptureResult#STATISTICS_SCENE_FLICKER android.statistics.sceneFlicker} key can assist 578 * the application in this.</p> 579 * <p><b>Possible values:</b> 580 * <ul> 581 * <li>{@link #CONTROL_AE_ANTIBANDING_MODE_OFF OFF}</li> 582 * <li>{@link #CONTROL_AE_ANTIBANDING_MODE_50HZ 50HZ}</li> 583 * <li>{@link #CONTROL_AE_ANTIBANDING_MODE_60HZ 60HZ}</li> 584 * <li>{@link #CONTROL_AE_ANTIBANDING_MODE_AUTO AUTO}</li> 585 * </ul></p> 586 * <p><b>Available values for this device:</b><br></p> 587 * <p>{@link CameraCharacteristics#CONTROL_AE_AVAILABLE_ANTIBANDING_MODES android.control.aeAvailableAntibandingModes}</p> 588 * <p>This key is available on all devices.</p> 589 * 590 * @see CameraCharacteristics#CONTROL_AE_AVAILABLE_ANTIBANDING_MODES 591 * @see CaptureRequest#CONTROL_AE_MODE 592 * @see CaptureRequest#CONTROL_MODE 593 * @see CaptureResult#STATISTICS_SCENE_FLICKER 594 * @see #CONTROL_AE_ANTIBANDING_MODE_OFF 595 * @see #CONTROL_AE_ANTIBANDING_MODE_50HZ 596 * @see #CONTROL_AE_ANTIBANDING_MODE_60HZ 597 * @see #CONTROL_AE_ANTIBANDING_MODE_AUTO 598 */ 599 @PublicKey 600 @NonNull 601 public static final Key<Integer> CONTROL_AE_ANTIBANDING_MODE = 602 new Key<Integer>("android.control.aeAntibandingMode", int.class); 603 604 /** 605 * <p>Adjustment to auto-exposure (AE) target image 606 * brightness.</p> 607 * <p>The adjustment is measured as a count of steps, with the 608 * step size defined by {@link CameraCharacteristics#CONTROL_AE_COMPENSATION_STEP android.control.aeCompensationStep} and the 609 * allowed range by {@link CameraCharacteristics#CONTROL_AE_COMPENSATION_RANGE android.control.aeCompensationRange}.</p> 610 * <p>For example, if the exposure value (EV) step is 0.333, '6' 611 * will mean an exposure compensation of +2 EV; -3 will mean an 612 * exposure compensation of -1 EV. One EV represents a doubling 613 * of image brightness. Note that this control will only be 614 * effective if {@link CaptureRequest#CONTROL_AE_MODE android.control.aeMode} <code>!=</code> OFF. This control 615 * will take effect even when {@link CaptureRequest#CONTROL_AE_LOCK android.control.aeLock} <code>== true</code>.</p> 616 * <p>In the event of exposure compensation value being changed, camera device 617 * may take several frames to reach the newly requested exposure target. 618 * During that time, {@link CaptureResult#CONTROL_AE_STATE android.control.aeState} field will be in the SEARCHING 619 * state. Once the new exposure target is reached, {@link CaptureResult#CONTROL_AE_STATE android.control.aeState} will 620 * change from SEARCHING to either CONVERGED, LOCKED (if AE lock is enabled), or 621 * FLASH_REQUIRED (if the scene is too dark for still capture).</p> 622 * <p><b>Units</b>: Compensation steps</p> 623 * <p><b>Range of valid values:</b><br> 624 * {@link CameraCharacteristics#CONTROL_AE_COMPENSATION_RANGE android.control.aeCompensationRange}</p> 625 * <p>This key is available on all devices.</p> 626 * 627 * @see CameraCharacteristics#CONTROL_AE_COMPENSATION_RANGE 628 * @see CameraCharacteristics#CONTROL_AE_COMPENSATION_STEP 629 * @see CaptureRequest#CONTROL_AE_LOCK 630 * @see CaptureRequest#CONTROL_AE_MODE 631 * @see CaptureResult#CONTROL_AE_STATE 632 */ 633 @PublicKey 634 @NonNull 635 public static final Key<Integer> CONTROL_AE_EXPOSURE_COMPENSATION = 636 new Key<Integer>("android.control.aeExposureCompensation", int.class); 637 638 /** 639 * <p>Whether auto-exposure (AE) is currently locked to its latest 640 * calculated values.</p> 641 * <p>When set to <code>true</code> (ON), the AE algorithm is locked to its latest parameters, 642 * and will not change exposure settings until the lock is set to <code>false</code> (OFF).</p> 643 * <p>Note that even when AE is locked, the flash may be fired if 644 * the {@link CaptureRequest#CONTROL_AE_MODE android.control.aeMode} is ON_AUTO_FLASH / 645 * ON_ALWAYS_FLASH / ON_AUTO_FLASH_REDEYE.</p> 646 * <p>When {@link CaptureRequest#CONTROL_AE_EXPOSURE_COMPENSATION android.control.aeExposureCompensation} is changed, even if the AE lock 647 * is ON, the camera device will still adjust its exposure value.</p> 648 * <p>If AE precapture is triggered (see {@link CaptureRequest#CONTROL_AE_PRECAPTURE_TRIGGER android.control.aePrecaptureTrigger}) 649 * when AE is already locked, the camera device will not change the exposure time 650 * ({@link CaptureRequest#SENSOR_EXPOSURE_TIME android.sensor.exposureTime}) and sensitivity ({@link CaptureRequest#SENSOR_SENSITIVITY android.sensor.sensitivity}) 651 * parameters. The flash may be fired if the {@link CaptureRequest#CONTROL_AE_MODE android.control.aeMode} 652 * is ON_AUTO_FLASH/ON_AUTO_FLASH_REDEYE and the scene is too dark. If the 653 * {@link CaptureRequest#CONTROL_AE_MODE android.control.aeMode} is ON_ALWAYS_FLASH, the scene may become overexposed. 654 * Similarly, AE precapture trigger CANCEL has no effect when AE is already locked.</p> 655 * <p>When an AE precapture sequence is triggered, AE unlock will not be able to unlock 656 * the AE if AE is locked by the camera device internally during precapture metering 657 * sequence In other words, submitting requests with AE unlock has no effect for an 658 * ongoing precapture metering sequence. Otherwise, the precapture metering sequence 659 * will never succeed in a sequence of preview requests where AE lock is always set 660 * to <code>false</code>.</p> 661 * <p>Since the camera device has a pipeline of in-flight requests, the settings that 662 * get locked do not necessarily correspond to the settings that were present in the 663 * latest capture result received from the camera device, since additional captures 664 * and AE updates may have occurred even before the result was sent out. If an 665 * application is switching between automatic and manual control and wishes to eliminate 666 * any flicker during the switch, the following procedure is recommended:</p> 667 * <ol> 668 * <li>Starting in auto-AE mode:</li> 669 * <li>Lock AE</li> 670 * <li>Wait for the first result to be output that has the AE locked</li> 671 * <li>Copy exposure settings from that result into a request, set the request to manual AE</li> 672 * <li>Submit the capture request, proceed to run manual AE as desired.</li> 673 * </ol> 674 * <p>See {@link CaptureResult#CONTROL_AE_STATE android.control.aeState} for AE lock related state transition details.</p> 675 * <p>This key is available on all devices.</p> 676 * 677 * @see CaptureRequest#CONTROL_AE_EXPOSURE_COMPENSATION 678 * @see CaptureRequest#CONTROL_AE_MODE 679 * @see CaptureRequest#CONTROL_AE_PRECAPTURE_TRIGGER 680 * @see CaptureResult#CONTROL_AE_STATE 681 * @see CaptureRequest#SENSOR_EXPOSURE_TIME 682 * @see CaptureRequest#SENSOR_SENSITIVITY 683 */ 684 @PublicKey 685 @NonNull 686 public static final Key<Boolean> CONTROL_AE_LOCK = 687 new Key<Boolean>("android.control.aeLock", boolean.class); 688 689 /** 690 * <p>The desired mode for the camera device's 691 * auto-exposure routine.</p> 692 * <p>This control is only effective if {@link CaptureRequest#CONTROL_MODE android.control.mode} is 693 * AUTO.</p> 694 * <p>When set to any of the ON modes, the camera device's 695 * auto-exposure routine is enabled, overriding the 696 * application's selected exposure time, sensor sensitivity, 697 * and frame duration ({@link CaptureRequest#SENSOR_EXPOSURE_TIME android.sensor.exposureTime}, 698 * {@link CaptureRequest#SENSOR_SENSITIVITY android.sensor.sensitivity}, and 699 * {@link CaptureRequest#SENSOR_FRAME_DURATION android.sensor.frameDuration}). If one of the FLASH modes 700 * is selected, the camera device's flash unit controls are 701 * also overridden.</p> 702 * <p>The FLASH modes are only available if the camera device 703 * has a flash unit ({@link CameraCharacteristics#FLASH_INFO_AVAILABLE android.flash.info.available} is <code>true</code>).</p> 704 * <p>If flash TORCH mode is desired, this field must be set to 705 * ON or OFF, and {@link CaptureRequest#FLASH_MODE android.flash.mode} set to TORCH.</p> 706 * <p>When set to any of the ON modes, the values chosen by the 707 * camera device auto-exposure routine for the overridden 708 * fields for a given capture will be available in its 709 * CaptureResult.</p> 710 * <p><b>Possible values:</b> 711 * <ul> 712 * <li>{@link #CONTROL_AE_MODE_OFF OFF}</li> 713 * <li>{@link #CONTROL_AE_MODE_ON ON}</li> 714 * <li>{@link #CONTROL_AE_MODE_ON_AUTO_FLASH ON_AUTO_FLASH}</li> 715 * <li>{@link #CONTROL_AE_MODE_ON_ALWAYS_FLASH ON_ALWAYS_FLASH}</li> 716 * <li>{@link #CONTROL_AE_MODE_ON_AUTO_FLASH_REDEYE ON_AUTO_FLASH_REDEYE}</li> 717 * <li>{@link #CONTROL_AE_MODE_ON_EXTERNAL_FLASH ON_EXTERNAL_FLASH}</li> 718 * </ul></p> 719 * <p><b>Available values for this device:</b><br> 720 * {@link CameraCharacteristics#CONTROL_AE_AVAILABLE_MODES android.control.aeAvailableModes}</p> 721 * <p>This key is available on all devices.</p> 722 * 723 * @see CameraCharacteristics#CONTROL_AE_AVAILABLE_MODES 724 * @see CaptureRequest#CONTROL_MODE 725 * @see CameraCharacteristics#FLASH_INFO_AVAILABLE 726 * @see CaptureRequest#FLASH_MODE 727 * @see CaptureRequest#SENSOR_EXPOSURE_TIME 728 * @see CaptureRequest#SENSOR_FRAME_DURATION 729 * @see CaptureRequest#SENSOR_SENSITIVITY 730 * @see #CONTROL_AE_MODE_OFF 731 * @see #CONTROL_AE_MODE_ON 732 * @see #CONTROL_AE_MODE_ON_AUTO_FLASH 733 * @see #CONTROL_AE_MODE_ON_ALWAYS_FLASH 734 * @see #CONTROL_AE_MODE_ON_AUTO_FLASH_REDEYE 735 * @see #CONTROL_AE_MODE_ON_EXTERNAL_FLASH 736 */ 737 @PublicKey 738 @NonNull 739 public static final Key<Integer> CONTROL_AE_MODE = 740 new Key<Integer>("android.control.aeMode", int.class); 741 742 /** 743 * <p>List of metering areas to use for auto-exposure adjustment.</p> 744 * <p>Not available if {@link CameraCharacteristics#CONTROL_MAX_REGIONS_AE android.control.maxRegionsAe} is 0. 745 * Otherwise will always be present.</p> 746 * <p>The maximum number of regions supported by the device is determined by the value 747 * of {@link CameraCharacteristics#CONTROL_MAX_REGIONS_AE android.control.maxRegionsAe}.</p> 748 * <p>For devices not supporting {@link CaptureRequest#DISTORTION_CORRECTION_MODE android.distortionCorrection.mode} control, the coordinate 749 * system always follows that of {@link CameraCharacteristics#SENSOR_INFO_ACTIVE_ARRAY_SIZE android.sensor.info.activeArraySize}, with (0,0) being 750 * the top-left pixel in the active pixel array, and 751 * ({@link CameraCharacteristics#SENSOR_INFO_ACTIVE_ARRAY_SIZE android.sensor.info.activeArraySize}.width - 1, 752 * {@link CameraCharacteristics#SENSOR_INFO_ACTIVE_ARRAY_SIZE android.sensor.info.activeArraySize}.height - 1) being the bottom-right pixel in the 753 * active pixel array.</p> 754 * <p>For devices supporting {@link CaptureRequest#DISTORTION_CORRECTION_MODE android.distortionCorrection.mode} control, the coordinate 755 * system depends on the mode being set. 756 * When the distortion correction mode is OFF, the coordinate system follows 757 * {@link CameraCharacteristics#SENSOR_INFO_PRE_CORRECTION_ACTIVE_ARRAY_SIZE android.sensor.info.preCorrectionActiveArraySize}, with 758 * <code>(0, 0)</code> being the top-left pixel of the pre-correction active array, and 759 * ({@link CameraCharacteristics#SENSOR_INFO_PRE_CORRECTION_ACTIVE_ARRAY_SIZE android.sensor.info.preCorrectionActiveArraySize}.width - 1, 760 * {@link CameraCharacteristics#SENSOR_INFO_PRE_CORRECTION_ACTIVE_ARRAY_SIZE android.sensor.info.preCorrectionActiveArraySize}.height - 1) being the bottom-right 761 * pixel in the pre-correction active pixel array. 762 * When the distortion correction mode is not OFF, the coordinate system follows 763 * {@link CameraCharacteristics#SENSOR_INFO_ACTIVE_ARRAY_SIZE android.sensor.info.activeArraySize}, with 764 * <code>(0, 0)</code> being the top-left pixel of the active array, and 765 * ({@link CameraCharacteristics#SENSOR_INFO_ACTIVE_ARRAY_SIZE android.sensor.info.activeArraySize}.width - 1, 766 * {@link CameraCharacteristics#SENSOR_INFO_ACTIVE_ARRAY_SIZE android.sensor.info.activeArraySize}.height - 1) being the bottom-right pixel in the 767 * active pixel array.</p> 768 * <p>The weight must be within <code>[0, 1000]</code>, and represents a weight 769 * for every pixel in the area. This means that a large metering area 770 * with the same weight as a smaller area will have more effect in 771 * the metering result. Metering areas can partially overlap and the 772 * camera device will add the weights in the overlap region.</p> 773 * <p>The weights are relative to weights of other exposure metering regions, so if only one 774 * region is used, all non-zero weights will have the same effect. A region with 0 775 * weight is ignored.</p> 776 * <p>If all regions have 0 weight, then no specific metering area needs to be used by the 777 * camera device.</p> 778 * <p>If the metering region is outside the used {@link CaptureRequest#SCALER_CROP_REGION android.scaler.cropRegion} returned in 779 * capture result metadata, the camera device will ignore the sections outside the crop 780 * region and output only the intersection rectangle as the metering region in the result 781 * metadata. If the region is entirely outside the crop region, it will be ignored and 782 * not reported in the result metadata.</p> 783 * <p><b>Units</b>: Pixel coordinates within {@link CameraCharacteristics#SENSOR_INFO_ACTIVE_ARRAY_SIZE android.sensor.info.activeArraySize} or 784 * {@link CameraCharacteristics#SENSOR_INFO_PRE_CORRECTION_ACTIVE_ARRAY_SIZE android.sensor.info.preCorrectionActiveArraySize} depending on 785 * distortion correction capability and mode</p> 786 * <p><b>Range of valid values:</b><br> 787 * Coordinates must be between <code>[(0,0), (width, height))</code> of 788 * {@link CameraCharacteristics#SENSOR_INFO_ACTIVE_ARRAY_SIZE android.sensor.info.activeArraySize} or {@link CameraCharacteristics#SENSOR_INFO_PRE_CORRECTION_ACTIVE_ARRAY_SIZE android.sensor.info.preCorrectionActiveArraySize} 789 * depending on distortion correction capability and mode</p> 790 * <p><b>Optional</b> - The value for this key may be {@code null} on some devices.</p> 791 * 792 * @see CameraCharacteristics#CONTROL_MAX_REGIONS_AE 793 * @see CaptureRequest#DISTORTION_CORRECTION_MODE 794 * @see CaptureRequest#SCALER_CROP_REGION 795 * @see CameraCharacteristics#SENSOR_INFO_ACTIVE_ARRAY_SIZE 796 * @see CameraCharacteristics#SENSOR_INFO_PRE_CORRECTION_ACTIVE_ARRAY_SIZE 797 */ 798 @PublicKey 799 @NonNull 800 public static final Key<android.hardware.camera2.params.MeteringRectangle[]> CONTROL_AE_REGIONS = 801 new Key<android.hardware.camera2.params.MeteringRectangle[]>("android.control.aeRegions", android.hardware.camera2.params.MeteringRectangle[].class); 802 803 /** 804 * <p>Range over which the auto-exposure routine can 805 * adjust the capture frame rate to maintain good 806 * exposure.</p> 807 * <p>Only constrains auto-exposure (AE) algorithm, not 808 * manual control of {@link CaptureRequest#SENSOR_EXPOSURE_TIME android.sensor.exposureTime} and 809 * {@link CaptureRequest#SENSOR_FRAME_DURATION android.sensor.frameDuration}.</p> 810 * <p><b>Units</b>: Frames per second (FPS)</p> 811 * <p><b>Range of valid values:</b><br> 812 * Any of the entries in {@link CameraCharacteristics#CONTROL_AE_AVAILABLE_TARGET_FPS_RANGES android.control.aeAvailableTargetFpsRanges}</p> 813 * <p>This key is available on all devices.</p> 814 * 815 * @see CameraCharacteristics#CONTROL_AE_AVAILABLE_TARGET_FPS_RANGES 816 * @see CaptureRequest#SENSOR_EXPOSURE_TIME 817 * @see CaptureRequest#SENSOR_FRAME_DURATION 818 */ 819 @PublicKey 820 @NonNull 821 public static final Key<android.util.Range<Integer>> CONTROL_AE_TARGET_FPS_RANGE = 822 new Key<android.util.Range<Integer>>("android.control.aeTargetFpsRange", new TypeReference<android.util.Range<Integer>>() {{ }}); 823 824 /** 825 * <p>Whether the camera device will trigger a precapture 826 * metering sequence when it processes this request.</p> 827 * <p>This entry is normally set to IDLE, or is not 828 * included at all in the request settings. When included and 829 * set to START, the camera device will trigger the auto-exposure (AE) 830 * precapture metering sequence.</p> 831 * <p>When set to CANCEL, the camera device will cancel any active 832 * precapture metering trigger, and return to its initial AE state. 833 * If a precapture metering sequence is already completed, and the camera 834 * device has implicitly locked the AE for subsequent still capture, the 835 * CANCEL trigger will unlock the AE and return to its initial AE state.</p> 836 * <p>The precapture sequence should be triggered before starting a 837 * high-quality still capture for final metering decisions to 838 * be made, and for firing pre-capture flash pulses to estimate 839 * scene brightness and required final capture flash power, when 840 * the flash is enabled.</p> 841 * <p>Normally, this entry should be set to START for only a 842 * single request, and the application should wait until the 843 * sequence completes before starting a new one.</p> 844 * <p>When a precapture metering sequence is finished, the camera device 845 * may lock the auto-exposure routine internally to be able to accurately expose the 846 * subsequent still capture image (<code>{@link CaptureRequest#CONTROL_CAPTURE_INTENT android.control.captureIntent} == STILL_CAPTURE</code>). 847 * For this case, the AE may not resume normal scan if no subsequent still capture is 848 * submitted. To ensure that the AE routine restarts normal scan, the application should 849 * submit a request with <code>{@link CaptureRequest#CONTROL_AE_LOCK android.control.aeLock} == true</code>, followed by a request 850 * with <code>{@link CaptureRequest#CONTROL_AE_LOCK android.control.aeLock} == false</code>, if the application decides not to submit a 851 * still capture request after the precapture sequence completes. Alternatively, for 852 * API level 23 or newer devices, the CANCEL can be used to unlock the camera device 853 * internally locked AE if the application doesn't submit a still capture request after 854 * the AE precapture trigger. Note that, the CANCEL was added in API level 23, and must not 855 * be used in devices that have earlier API levels.</p> 856 * <p>The exact effect of auto-exposure (AE) precapture trigger 857 * depends on the current AE mode and state; see 858 * {@link CaptureResult#CONTROL_AE_STATE android.control.aeState} for AE precapture state transition 859 * details.</p> 860 * <p>On LEGACY-level devices, the precapture trigger is not supported; 861 * capturing a high-resolution JPEG image will automatically trigger a 862 * precapture sequence before the high-resolution capture, including 863 * potentially firing a pre-capture flash.</p> 864 * <p>Using the precapture trigger and the auto-focus trigger {@link CaptureRequest#CONTROL_AF_TRIGGER android.control.afTrigger} 865 * simultaneously is allowed. However, since these triggers often require cooperation between 866 * the auto-focus and auto-exposure routines (for example, the may need to be enabled for a 867 * focus sweep), the camera device may delay acting on a later trigger until the previous 868 * trigger has been fully handled. This may lead to longer intervals between the trigger and 869 * changes to {@link CaptureResult#CONTROL_AE_STATE android.control.aeState} indicating the start of the precapture sequence, for 870 * example.</p> 871 * <p>If both the precapture and the auto-focus trigger are activated on the same request, then 872 * the camera device will complete them in the optimal order for that device.</p> 873 * <p><b>Possible values:</b> 874 * <ul> 875 * <li>{@link #CONTROL_AE_PRECAPTURE_TRIGGER_IDLE IDLE}</li> 876 * <li>{@link #CONTROL_AE_PRECAPTURE_TRIGGER_START START}</li> 877 * <li>{@link #CONTROL_AE_PRECAPTURE_TRIGGER_CANCEL CANCEL}</li> 878 * </ul></p> 879 * <p><b>Optional</b> - The value for this key may be {@code null} on some devices.</p> 880 * <p><b>Limited capability</b> - 881 * Present on all camera devices that report being at least {@link CameraCharacteristics#INFO_SUPPORTED_HARDWARE_LEVEL_LIMITED HARDWARE_LEVEL_LIMITED} devices in the 882 * {@link CameraCharacteristics#INFO_SUPPORTED_HARDWARE_LEVEL android.info.supportedHardwareLevel} key</p> 883 * 884 * @see CaptureRequest#CONTROL_AE_LOCK 885 * @see CaptureResult#CONTROL_AE_STATE 886 * @see CaptureRequest#CONTROL_AF_TRIGGER 887 * @see CaptureRequest#CONTROL_CAPTURE_INTENT 888 * @see CameraCharacteristics#INFO_SUPPORTED_HARDWARE_LEVEL 889 * @see #CONTROL_AE_PRECAPTURE_TRIGGER_IDLE 890 * @see #CONTROL_AE_PRECAPTURE_TRIGGER_START 891 * @see #CONTROL_AE_PRECAPTURE_TRIGGER_CANCEL 892 */ 893 @PublicKey 894 @NonNull 895 public static final Key<Integer> CONTROL_AE_PRECAPTURE_TRIGGER = 896 new Key<Integer>("android.control.aePrecaptureTrigger", int.class); 897 898 /** 899 * <p>Current state of the auto-exposure (AE) algorithm.</p> 900 * <p>Switching between or enabling AE modes ({@link CaptureRequest#CONTROL_AE_MODE android.control.aeMode}) always 901 * resets the AE state to INACTIVE. Similarly, switching between {@link CaptureRequest#CONTROL_MODE android.control.mode}, 902 * or {@link CaptureRequest#CONTROL_SCENE_MODE android.control.sceneMode} if <code>{@link CaptureRequest#CONTROL_MODE android.control.mode} == USE_SCENE_MODE</code> resets all 903 * the algorithm states to INACTIVE.</p> 904 * <p>The camera device can do several state transitions between two results, if it is 905 * allowed by the state transition table. For example: INACTIVE may never actually be 906 * seen in a result.</p> 907 * <p>The state in the result is the state for this image (in sync with this image): if 908 * AE state becomes CONVERGED, then the image data associated with this result should 909 * be good to use.</p> 910 * <p>Below are state transition tables for different AE modes.</p> 911 * <table> 912 * <thead> 913 * <tr> 914 * <th align="center">State</th> 915 * <th align="center">Transition Cause</th> 916 * <th align="center">New State</th> 917 * <th align="center">Notes</th> 918 * </tr> 919 * </thead> 920 * <tbody> 921 * <tr> 922 * <td align="center">INACTIVE</td> 923 * <td align="center"></td> 924 * <td align="center">INACTIVE</td> 925 * <td align="center">Camera device auto exposure algorithm is disabled</td> 926 * </tr> 927 * </tbody> 928 * </table> 929 * <p>When {@link CaptureRequest#CONTROL_AE_MODE android.control.aeMode} is AE_MODE_ON*:</p> 930 * <table> 931 * <thead> 932 * <tr> 933 * <th align="center">State</th> 934 * <th align="center">Transition Cause</th> 935 * <th align="center">New State</th> 936 * <th align="center">Notes</th> 937 * </tr> 938 * </thead> 939 * <tbody> 940 * <tr> 941 * <td align="center">INACTIVE</td> 942 * <td align="center">Camera device initiates AE scan</td> 943 * <td align="center">SEARCHING</td> 944 * <td align="center">Values changing</td> 945 * </tr> 946 * <tr> 947 * <td align="center">INACTIVE</td> 948 * <td align="center">{@link CaptureRequest#CONTROL_AE_LOCK android.control.aeLock} is ON</td> 949 * <td align="center">LOCKED</td> 950 * <td align="center">Values locked</td> 951 * </tr> 952 * <tr> 953 * <td align="center">SEARCHING</td> 954 * <td align="center">Camera device finishes AE scan</td> 955 * <td align="center">CONVERGED</td> 956 * <td align="center">Good values, not changing</td> 957 * </tr> 958 * <tr> 959 * <td align="center">SEARCHING</td> 960 * <td align="center">Camera device finishes AE scan</td> 961 * <td align="center">FLASH_REQUIRED</td> 962 * <td align="center">Converged but too dark w/o flash</td> 963 * </tr> 964 * <tr> 965 * <td align="center">SEARCHING</td> 966 * <td align="center">{@link CaptureRequest#CONTROL_AE_LOCK android.control.aeLock} is ON</td> 967 * <td align="center">LOCKED</td> 968 * <td align="center">Values locked</td> 969 * </tr> 970 * <tr> 971 * <td align="center">CONVERGED</td> 972 * <td align="center">Camera device initiates AE scan</td> 973 * <td align="center">SEARCHING</td> 974 * <td align="center">Values changing</td> 975 * </tr> 976 * <tr> 977 * <td align="center">CONVERGED</td> 978 * <td align="center">{@link CaptureRequest#CONTROL_AE_LOCK android.control.aeLock} is ON</td> 979 * <td align="center">LOCKED</td> 980 * <td align="center">Values locked</td> 981 * </tr> 982 * <tr> 983 * <td align="center">FLASH_REQUIRED</td> 984 * <td align="center">Camera device initiates AE scan</td> 985 * <td align="center">SEARCHING</td> 986 * <td align="center">Values changing</td> 987 * </tr> 988 * <tr> 989 * <td align="center">FLASH_REQUIRED</td> 990 * <td align="center">{@link CaptureRequest#CONTROL_AE_LOCK android.control.aeLock} is ON</td> 991 * <td align="center">LOCKED</td> 992 * <td align="center">Values locked</td> 993 * </tr> 994 * <tr> 995 * <td align="center">LOCKED</td> 996 * <td align="center">{@link CaptureRequest#CONTROL_AE_LOCK android.control.aeLock} is OFF</td> 997 * <td align="center">SEARCHING</td> 998 * <td align="center">Values not good after unlock</td> 999 * </tr> 1000 * <tr> 1001 * <td align="center">LOCKED</td> 1002 * <td align="center">{@link CaptureRequest#CONTROL_AE_LOCK android.control.aeLock} is OFF</td> 1003 * <td align="center">CONVERGED</td> 1004 * <td align="center">Values good after unlock</td> 1005 * </tr> 1006 * <tr> 1007 * <td align="center">LOCKED</td> 1008 * <td align="center">{@link CaptureRequest#CONTROL_AE_LOCK android.control.aeLock} is OFF</td> 1009 * <td align="center">FLASH_REQUIRED</td> 1010 * <td align="center">Exposure good, but too dark</td> 1011 * </tr> 1012 * <tr> 1013 * <td align="center">PRECAPTURE</td> 1014 * <td align="center">Sequence done. {@link CaptureRequest#CONTROL_AE_LOCK android.control.aeLock} is OFF</td> 1015 * <td align="center">CONVERGED</td> 1016 * <td align="center">Ready for high-quality capture</td> 1017 * </tr> 1018 * <tr> 1019 * <td align="center">PRECAPTURE</td> 1020 * <td align="center">Sequence done. {@link CaptureRequest#CONTROL_AE_LOCK android.control.aeLock} is ON</td> 1021 * <td align="center">LOCKED</td> 1022 * <td align="center">Ready for high-quality capture</td> 1023 * </tr> 1024 * <tr> 1025 * <td align="center">LOCKED</td> 1026 * <td align="center">aeLock is ON and aePrecaptureTrigger is START</td> 1027 * <td align="center">LOCKED</td> 1028 * <td align="center">Precapture trigger is ignored when AE is already locked</td> 1029 * </tr> 1030 * <tr> 1031 * <td align="center">LOCKED</td> 1032 * <td align="center">aeLock is ON and aePrecaptureTrigger is CANCEL</td> 1033 * <td align="center">LOCKED</td> 1034 * <td align="center">Precapture trigger is ignored when AE is already locked</td> 1035 * </tr> 1036 * <tr> 1037 * <td align="center">Any state (excluding LOCKED)</td> 1038 * <td align="center">{@link CaptureRequest#CONTROL_AE_PRECAPTURE_TRIGGER android.control.aePrecaptureTrigger} is START</td> 1039 * <td align="center">PRECAPTURE</td> 1040 * <td align="center">Start AE precapture metering sequence</td> 1041 * </tr> 1042 * <tr> 1043 * <td align="center">Any state (excluding LOCKED)</td> 1044 * <td align="center">{@link CaptureRequest#CONTROL_AE_PRECAPTURE_TRIGGER android.control.aePrecaptureTrigger} is CANCEL</td> 1045 * <td align="center">INACTIVE</td> 1046 * <td align="center">Currently active precapture metering sequence is canceled</td> 1047 * </tr> 1048 * </tbody> 1049 * </table> 1050 * <p>If the camera device supports AE external flash mode (ON_EXTERNAL_FLASH is included in 1051 * {@link CameraCharacteristics#CONTROL_AE_AVAILABLE_MODES android.control.aeAvailableModes}), {@link CaptureResult#CONTROL_AE_STATE android.control.aeState} must be FLASH_REQUIRED after 1052 * the camera device finishes AE scan and it's too dark without flash.</p> 1053 * <p>For the above table, the camera device may skip reporting any state changes that happen 1054 * without application intervention (i.e. mode switch, trigger, locking). Any state that 1055 * can be skipped in that manner is called a transient state.</p> 1056 * <p>For example, for above AE modes (AE_MODE_ON*), in addition to the state transitions 1057 * listed in above table, it is also legal for the camera device to skip one or more 1058 * transient states between two results. See below table for examples:</p> 1059 * <table> 1060 * <thead> 1061 * <tr> 1062 * <th align="center">State</th> 1063 * <th align="center">Transition Cause</th> 1064 * <th align="center">New State</th> 1065 * <th align="center">Notes</th> 1066 * </tr> 1067 * </thead> 1068 * <tbody> 1069 * <tr> 1070 * <td align="center">INACTIVE</td> 1071 * <td align="center">Camera device finished AE scan</td> 1072 * <td align="center">CONVERGED</td> 1073 * <td align="center">Values are already good, transient states are skipped by camera device.</td> 1074 * </tr> 1075 * <tr> 1076 * <td align="center">Any state (excluding LOCKED)</td> 1077 * <td align="center">{@link CaptureRequest#CONTROL_AE_PRECAPTURE_TRIGGER android.control.aePrecaptureTrigger} is START, sequence done</td> 1078 * <td align="center">FLASH_REQUIRED</td> 1079 * <td align="center">Converged but too dark w/o flash after a precapture sequence, transient states are skipped by camera device.</td> 1080 * </tr> 1081 * <tr> 1082 * <td align="center">Any state (excluding LOCKED)</td> 1083 * <td align="center">{@link CaptureRequest#CONTROL_AE_PRECAPTURE_TRIGGER android.control.aePrecaptureTrigger} is START, sequence done</td> 1084 * <td align="center">CONVERGED</td> 1085 * <td align="center">Converged after a precapture sequence, transient states are skipped by camera device.</td> 1086 * </tr> 1087 * <tr> 1088 * <td align="center">Any state (excluding LOCKED)</td> 1089 * <td align="center">{@link CaptureRequest#CONTROL_AE_PRECAPTURE_TRIGGER android.control.aePrecaptureTrigger} is CANCEL, converged</td> 1090 * <td align="center">FLASH_REQUIRED</td> 1091 * <td align="center">Converged but too dark w/o flash after a precapture sequence is canceled, transient states are skipped by camera device.</td> 1092 * </tr> 1093 * <tr> 1094 * <td align="center">Any state (excluding LOCKED)</td> 1095 * <td align="center">{@link CaptureRequest#CONTROL_AE_PRECAPTURE_TRIGGER android.control.aePrecaptureTrigger} is CANCEL, converged</td> 1096 * <td align="center">CONVERGED</td> 1097 * <td align="center">Converged after a precapture sequenceis canceled, transient states are skipped by camera device.</td> 1098 * </tr> 1099 * <tr> 1100 * <td align="center">CONVERGED</td> 1101 * <td align="center">Camera device finished AE scan</td> 1102 * <td align="center">FLASH_REQUIRED</td> 1103 * <td align="center">Converged but too dark w/o flash after a new scan, transient states are skipped by camera device.</td> 1104 * </tr> 1105 * <tr> 1106 * <td align="center">FLASH_REQUIRED</td> 1107 * <td align="center">Camera device finished AE scan</td> 1108 * <td align="center">CONVERGED</td> 1109 * <td align="center">Converged after a new scan, transient states are skipped by camera device.</td> 1110 * </tr> 1111 * </tbody> 1112 * </table> 1113 * <p><b>Possible values:</b> 1114 * <ul> 1115 * <li>{@link #CONTROL_AE_STATE_INACTIVE INACTIVE}</li> 1116 * <li>{@link #CONTROL_AE_STATE_SEARCHING SEARCHING}</li> 1117 * <li>{@link #CONTROL_AE_STATE_CONVERGED CONVERGED}</li> 1118 * <li>{@link #CONTROL_AE_STATE_LOCKED LOCKED}</li> 1119 * <li>{@link #CONTROL_AE_STATE_FLASH_REQUIRED FLASH_REQUIRED}</li> 1120 * <li>{@link #CONTROL_AE_STATE_PRECAPTURE PRECAPTURE}</li> 1121 * </ul></p> 1122 * <p><b>Optional</b> - The value for this key may be {@code null} on some devices.</p> 1123 * <p><b>Limited capability</b> - 1124 * Present on all camera devices that report being at least {@link CameraCharacteristics#INFO_SUPPORTED_HARDWARE_LEVEL_LIMITED HARDWARE_LEVEL_LIMITED} devices in the 1125 * {@link CameraCharacteristics#INFO_SUPPORTED_HARDWARE_LEVEL android.info.supportedHardwareLevel} key</p> 1126 * 1127 * @see CameraCharacteristics#CONTROL_AE_AVAILABLE_MODES 1128 * @see CaptureRequest#CONTROL_AE_LOCK 1129 * @see CaptureRequest#CONTROL_AE_MODE 1130 * @see CaptureRequest#CONTROL_AE_PRECAPTURE_TRIGGER 1131 * @see CaptureResult#CONTROL_AE_STATE 1132 * @see CaptureRequest#CONTROL_MODE 1133 * @see CaptureRequest#CONTROL_SCENE_MODE 1134 * @see CameraCharacteristics#INFO_SUPPORTED_HARDWARE_LEVEL 1135 * @see #CONTROL_AE_STATE_INACTIVE 1136 * @see #CONTROL_AE_STATE_SEARCHING 1137 * @see #CONTROL_AE_STATE_CONVERGED 1138 * @see #CONTROL_AE_STATE_LOCKED 1139 * @see #CONTROL_AE_STATE_FLASH_REQUIRED 1140 * @see #CONTROL_AE_STATE_PRECAPTURE 1141 */ 1142 @PublicKey 1143 @NonNull 1144 public static final Key<Integer> CONTROL_AE_STATE = 1145 new Key<Integer>("android.control.aeState", int.class); 1146 1147 /** 1148 * <p>Whether auto-focus (AF) is currently enabled, and what 1149 * mode it is set to.</p> 1150 * <p>Only effective if {@link CaptureRequest#CONTROL_MODE android.control.mode} = AUTO and the lens is not fixed focus 1151 * (i.e. <code>{@link CameraCharacteristics#LENS_INFO_MINIMUM_FOCUS_DISTANCE android.lens.info.minimumFocusDistance} > 0</code>). Also note that 1152 * when {@link CaptureRequest#CONTROL_AE_MODE android.control.aeMode} is OFF, the behavior of AF is device 1153 * dependent. It is recommended to lock AF by using {@link CaptureRequest#CONTROL_AF_TRIGGER android.control.afTrigger} before 1154 * setting {@link CaptureRequest#CONTROL_AE_MODE android.control.aeMode} to OFF, or set AF mode to OFF when AE is OFF.</p> 1155 * <p>If the lens is controlled by the camera device auto-focus algorithm, 1156 * the camera device will report the current AF status in {@link CaptureResult#CONTROL_AF_STATE android.control.afState} 1157 * in result metadata.</p> 1158 * <p><b>Possible values:</b> 1159 * <ul> 1160 * <li>{@link #CONTROL_AF_MODE_OFF OFF}</li> 1161 * <li>{@link #CONTROL_AF_MODE_AUTO AUTO}</li> 1162 * <li>{@link #CONTROL_AF_MODE_MACRO MACRO}</li> 1163 * <li>{@link #CONTROL_AF_MODE_CONTINUOUS_VIDEO CONTINUOUS_VIDEO}</li> 1164 * <li>{@link #CONTROL_AF_MODE_CONTINUOUS_PICTURE CONTINUOUS_PICTURE}</li> 1165 * <li>{@link #CONTROL_AF_MODE_EDOF EDOF}</li> 1166 * </ul></p> 1167 * <p><b>Available values for this device:</b><br> 1168 * {@link CameraCharacteristics#CONTROL_AF_AVAILABLE_MODES android.control.afAvailableModes}</p> 1169 * <p>This key is available on all devices.</p> 1170 * 1171 * @see CaptureRequest#CONTROL_AE_MODE 1172 * @see CameraCharacteristics#CONTROL_AF_AVAILABLE_MODES 1173 * @see CaptureResult#CONTROL_AF_STATE 1174 * @see CaptureRequest#CONTROL_AF_TRIGGER 1175 * @see CaptureRequest#CONTROL_MODE 1176 * @see CameraCharacteristics#LENS_INFO_MINIMUM_FOCUS_DISTANCE 1177 * @see #CONTROL_AF_MODE_OFF 1178 * @see #CONTROL_AF_MODE_AUTO 1179 * @see #CONTROL_AF_MODE_MACRO 1180 * @see #CONTROL_AF_MODE_CONTINUOUS_VIDEO 1181 * @see #CONTROL_AF_MODE_CONTINUOUS_PICTURE 1182 * @see #CONTROL_AF_MODE_EDOF 1183 */ 1184 @PublicKey 1185 @NonNull 1186 public static final Key<Integer> CONTROL_AF_MODE = 1187 new Key<Integer>("android.control.afMode", int.class); 1188 1189 /** 1190 * <p>List of metering areas to use for auto-focus.</p> 1191 * <p>Not available if {@link CameraCharacteristics#CONTROL_MAX_REGIONS_AF android.control.maxRegionsAf} is 0. 1192 * Otherwise will always be present.</p> 1193 * <p>The maximum number of focus areas supported by the device is determined by the value 1194 * of {@link CameraCharacteristics#CONTROL_MAX_REGIONS_AF android.control.maxRegionsAf}.</p> 1195 * <p>For devices not supporting {@link CaptureRequest#DISTORTION_CORRECTION_MODE android.distortionCorrection.mode} control, the coordinate 1196 * system always follows that of {@link CameraCharacteristics#SENSOR_INFO_ACTIVE_ARRAY_SIZE android.sensor.info.activeArraySize}, with (0,0) being 1197 * the top-left pixel in the active pixel array, and 1198 * ({@link CameraCharacteristics#SENSOR_INFO_ACTIVE_ARRAY_SIZE android.sensor.info.activeArraySize}.width - 1, 1199 * {@link CameraCharacteristics#SENSOR_INFO_ACTIVE_ARRAY_SIZE android.sensor.info.activeArraySize}.height - 1) being the bottom-right pixel in the 1200 * active pixel array.</p> 1201 * <p>For devices supporting {@link CaptureRequest#DISTORTION_CORRECTION_MODE android.distortionCorrection.mode} control, the coordinate 1202 * system depends on the mode being set. 1203 * When the distortion correction mode is OFF, the coordinate system follows 1204 * {@link CameraCharacteristics#SENSOR_INFO_PRE_CORRECTION_ACTIVE_ARRAY_SIZE android.sensor.info.preCorrectionActiveArraySize}, with 1205 * <code>(0, 0)</code> being the top-left pixel of the pre-correction active array, and 1206 * ({@link CameraCharacteristics#SENSOR_INFO_PRE_CORRECTION_ACTIVE_ARRAY_SIZE android.sensor.info.preCorrectionActiveArraySize}.width - 1, 1207 * {@link CameraCharacteristics#SENSOR_INFO_PRE_CORRECTION_ACTIVE_ARRAY_SIZE android.sensor.info.preCorrectionActiveArraySize}.height - 1) being the bottom-right 1208 * pixel in the pre-correction active pixel array. 1209 * When the distortion correction mode is not OFF, the coordinate system follows 1210 * {@link CameraCharacteristics#SENSOR_INFO_ACTIVE_ARRAY_SIZE android.sensor.info.activeArraySize}, with 1211 * <code>(0, 0)</code> being the top-left pixel of the active array, and 1212 * ({@link CameraCharacteristics#SENSOR_INFO_ACTIVE_ARRAY_SIZE android.sensor.info.activeArraySize}.width - 1, 1213 * {@link CameraCharacteristics#SENSOR_INFO_ACTIVE_ARRAY_SIZE android.sensor.info.activeArraySize}.height - 1) being the bottom-right pixel in the 1214 * active pixel array.</p> 1215 * <p>The weight must be within <code>[0, 1000]</code>, and represents a weight 1216 * for every pixel in the area. This means that a large metering area 1217 * with the same weight as a smaller area will have more effect in 1218 * the metering result. Metering areas can partially overlap and the 1219 * camera device will add the weights in the overlap region.</p> 1220 * <p>The weights are relative to weights of other metering regions, so if only one region 1221 * is used, all non-zero weights will have the same effect. A region with 0 weight is 1222 * ignored.</p> 1223 * <p>If all regions have 0 weight, then no specific metering area needs to be used by the 1224 * camera device. The capture result will either be a zero weight region as well, or 1225 * the region selected by the camera device as the focus area of interest.</p> 1226 * <p>If the metering region is outside the used {@link CaptureRequest#SCALER_CROP_REGION android.scaler.cropRegion} returned in 1227 * capture result metadata, the camera device will ignore the sections outside the crop 1228 * region and output only the intersection rectangle as the metering region in the result 1229 * metadata. If the region is entirely outside the crop region, it will be ignored and 1230 * not reported in the result metadata.</p> 1231 * <p><b>Units</b>: Pixel coordinates within {@link CameraCharacteristics#SENSOR_INFO_ACTIVE_ARRAY_SIZE android.sensor.info.activeArraySize} or 1232 * {@link CameraCharacteristics#SENSOR_INFO_PRE_CORRECTION_ACTIVE_ARRAY_SIZE android.sensor.info.preCorrectionActiveArraySize} depending on 1233 * distortion correction capability and mode</p> 1234 * <p><b>Range of valid values:</b><br> 1235 * Coordinates must be between <code>[(0,0), (width, height))</code> of 1236 * {@link CameraCharacteristics#SENSOR_INFO_ACTIVE_ARRAY_SIZE android.sensor.info.activeArraySize} or {@link CameraCharacteristics#SENSOR_INFO_PRE_CORRECTION_ACTIVE_ARRAY_SIZE android.sensor.info.preCorrectionActiveArraySize} 1237 * depending on distortion correction capability and mode</p> 1238 * <p><b>Optional</b> - The value for this key may be {@code null} on some devices.</p> 1239 * 1240 * @see CameraCharacteristics#CONTROL_MAX_REGIONS_AF 1241 * @see CaptureRequest#DISTORTION_CORRECTION_MODE 1242 * @see CaptureRequest#SCALER_CROP_REGION 1243 * @see CameraCharacteristics#SENSOR_INFO_ACTIVE_ARRAY_SIZE 1244 * @see CameraCharacteristics#SENSOR_INFO_PRE_CORRECTION_ACTIVE_ARRAY_SIZE 1245 */ 1246 @PublicKey 1247 @NonNull 1248 public static final Key<android.hardware.camera2.params.MeteringRectangle[]> CONTROL_AF_REGIONS = 1249 new Key<android.hardware.camera2.params.MeteringRectangle[]>("android.control.afRegions", android.hardware.camera2.params.MeteringRectangle[].class); 1250 1251 /** 1252 * <p>Whether the camera device will trigger autofocus for this request.</p> 1253 * <p>This entry is normally set to IDLE, or is not 1254 * included at all in the request settings.</p> 1255 * <p>When included and set to START, the camera device will trigger the 1256 * autofocus algorithm. If autofocus is disabled, this trigger has no effect.</p> 1257 * <p>When set to CANCEL, the camera device will cancel any active trigger, 1258 * and return to its initial AF state.</p> 1259 * <p>Generally, applications should set this entry to START or CANCEL for only a 1260 * single capture, and then return it to IDLE (or not set at all). Specifying 1261 * START for multiple captures in a row means restarting the AF operation over 1262 * and over again.</p> 1263 * <p>See {@link CaptureResult#CONTROL_AF_STATE android.control.afState} for what the trigger means for each AF mode.</p> 1264 * <p>Using the autofocus trigger and the precapture trigger {@link CaptureRequest#CONTROL_AE_PRECAPTURE_TRIGGER android.control.aePrecaptureTrigger} 1265 * simultaneously is allowed. However, since these triggers often require cooperation between 1266 * the auto-focus and auto-exposure routines (for example, the may need to be enabled for a 1267 * focus sweep), the camera device may delay acting on a later trigger until the previous 1268 * trigger has been fully handled. This may lead to longer intervals between the trigger and 1269 * changes to {@link CaptureResult#CONTROL_AF_STATE android.control.afState}, for example.</p> 1270 * <p><b>Possible values:</b> 1271 * <ul> 1272 * <li>{@link #CONTROL_AF_TRIGGER_IDLE IDLE}</li> 1273 * <li>{@link #CONTROL_AF_TRIGGER_START START}</li> 1274 * <li>{@link #CONTROL_AF_TRIGGER_CANCEL CANCEL}</li> 1275 * </ul></p> 1276 * <p>This key is available on all devices.</p> 1277 * 1278 * @see CaptureRequest#CONTROL_AE_PRECAPTURE_TRIGGER 1279 * @see CaptureResult#CONTROL_AF_STATE 1280 * @see #CONTROL_AF_TRIGGER_IDLE 1281 * @see #CONTROL_AF_TRIGGER_START 1282 * @see #CONTROL_AF_TRIGGER_CANCEL 1283 */ 1284 @PublicKey 1285 @NonNull 1286 public static final Key<Integer> CONTROL_AF_TRIGGER = 1287 new Key<Integer>("android.control.afTrigger", int.class); 1288 1289 /** 1290 * <p>Current state of auto-focus (AF) algorithm.</p> 1291 * <p>Switching between or enabling AF modes ({@link CaptureRequest#CONTROL_AF_MODE android.control.afMode}) always 1292 * resets the AF state to INACTIVE. Similarly, switching between {@link CaptureRequest#CONTROL_MODE android.control.mode}, 1293 * or {@link CaptureRequest#CONTROL_SCENE_MODE android.control.sceneMode} if <code>{@link CaptureRequest#CONTROL_MODE android.control.mode} == USE_SCENE_MODE</code> resets all 1294 * the algorithm states to INACTIVE.</p> 1295 * <p>The camera device can do several state transitions between two results, if it is 1296 * allowed by the state transition table. For example: INACTIVE may never actually be 1297 * seen in a result.</p> 1298 * <p>The state in the result is the state for this image (in sync with this image): if 1299 * AF state becomes FOCUSED, then the image data associated with this result should 1300 * be sharp.</p> 1301 * <p>Below are state transition tables for different AF modes.</p> 1302 * <p>When {@link CaptureRequest#CONTROL_AF_MODE android.control.afMode} is AF_MODE_OFF or AF_MODE_EDOF:</p> 1303 * <table> 1304 * <thead> 1305 * <tr> 1306 * <th align="center">State</th> 1307 * <th align="center">Transition Cause</th> 1308 * <th align="center">New State</th> 1309 * <th align="center">Notes</th> 1310 * </tr> 1311 * </thead> 1312 * <tbody> 1313 * <tr> 1314 * <td align="center">INACTIVE</td> 1315 * <td align="center"></td> 1316 * <td align="center">INACTIVE</td> 1317 * <td align="center">Never changes</td> 1318 * </tr> 1319 * </tbody> 1320 * </table> 1321 * <p>When {@link CaptureRequest#CONTROL_AF_MODE android.control.afMode} is AF_MODE_AUTO or AF_MODE_MACRO:</p> 1322 * <table> 1323 * <thead> 1324 * <tr> 1325 * <th align="center">State</th> 1326 * <th align="center">Transition Cause</th> 1327 * <th align="center">New State</th> 1328 * <th align="center">Notes</th> 1329 * </tr> 1330 * </thead> 1331 * <tbody> 1332 * <tr> 1333 * <td align="center">INACTIVE</td> 1334 * <td align="center">AF_TRIGGER</td> 1335 * <td align="center">ACTIVE_SCAN</td> 1336 * <td align="center">Start AF sweep, Lens now moving</td> 1337 * </tr> 1338 * <tr> 1339 * <td align="center">ACTIVE_SCAN</td> 1340 * <td align="center">AF sweep done</td> 1341 * <td align="center">FOCUSED_LOCKED</td> 1342 * <td align="center">Focused, Lens now locked</td> 1343 * </tr> 1344 * <tr> 1345 * <td align="center">ACTIVE_SCAN</td> 1346 * <td align="center">AF sweep done</td> 1347 * <td align="center">NOT_FOCUSED_LOCKED</td> 1348 * <td align="center">Not focused, Lens now locked</td> 1349 * </tr> 1350 * <tr> 1351 * <td align="center">ACTIVE_SCAN</td> 1352 * <td align="center">AF_CANCEL</td> 1353 * <td align="center">INACTIVE</td> 1354 * <td align="center">Cancel/reset AF, Lens now locked</td> 1355 * </tr> 1356 * <tr> 1357 * <td align="center">FOCUSED_LOCKED</td> 1358 * <td align="center">AF_CANCEL</td> 1359 * <td align="center">INACTIVE</td> 1360 * <td align="center">Cancel/reset AF</td> 1361 * </tr> 1362 * <tr> 1363 * <td align="center">FOCUSED_LOCKED</td> 1364 * <td align="center">AF_TRIGGER</td> 1365 * <td align="center">ACTIVE_SCAN</td> 1366 * <td align="center">Start new sweep, Lens now moving</td> 1367 * </tr> 1368 * <tr> 1369 * <td align="center">NOT_FOCUSED_LOCKED</td> 1370 * <td align="center">AF_CANCEL</td> 1371 * <td align="center">INACTIVE</td> 1372 * <td align="center">Cancel/reset AF</td> 1373 * </tr> 1374 * <tr> 1375 * <td align="center">NOT_FOCUSED_LOCKED</td> 1376 * <td align="center">AF_TRIGGER</td> 1377 * <td align="center">ACTIVE_SCAN</td> 1378 * <td align="center">Start new sweep, Lens now moving</td> 1379 * </tr> 1380 * <tr> 1381 * <td align="center">Any state</td> 1382 * <td align="center">Mode change</td> 1383 * <td align="center">INACTIVE</td> 1384 * <td align="center"></td> 1385 * </tr> 1386 * </tbody> 1387 * </table> 1388 * <p>For the above table, the camera device may skip reporting any state changes that happen 1389 * without application intervention (i.e. mode switch, trigger, locking). Any state that 1390 * can be skipped in that manner is called a transient state.</p> 1391 * <p>For example, for these AF modes (AF_MODE_AUTO and AF_MODE_MACRO), in addition to the 1392 * state transitions listed in above table, it is also legal for the camera device to skip 1393 * one or more transient states between two results. See below table for examples:</p> 1394 * <table> 1395 * <thead> 1396 * <tr> 1397 * <th align="center">State</th> 1398 * <th align="center">Transition Cause</th> 1399 * <th align="center">New State</th> 1400 * <th align="center">Notes</th> 1401 * </tr> 1402 * </thead> 1403 * <tbody> 1404 * <tr> 1405 * <td align="center">INACTIVE</td> 1406 * <td align="center">AF_TRIGGER</td> 1407 * <td align="center">FOCUSED_LOCKED</td> 1408 * <td align="center">Focus is already good or good after a scan, lens is now locked.</td> 1409 * </tr> 1410 * <tr> 1411 * <td align="center">INACTIVE</td> 1412 * <td align="center">AF_TRIGGER</td> 1413 * <td align="center">NOT_FOCUSED_LOCKED</td> 1414 * <td align="center">Focus failed after a scan, lens is now locked.</td> 1415 * </tr> 1416 * <tr> 1417 * <td align="center">FOCUSED_LOCKED</td> 1418 * <td align="center">AF_TRIGGER</td> 1419 * <td align="center">FOCUSED_LOCKED</td> 1420 * <td align="center">Focus is already good or good after a scan, lens is now locked.</td> 1421 * </tr> 1422 * <tr> 1423 * <td align="center">NOT_FOCUSED_LOCKED</td> 1424 * <td align="center">AF_TRIGGER</td> 1425 * <td align="center">FOCUSED_LOCKED</td> 1426 * <td align="center">Focus is good after a scan, lens is not locked.</td> 1427 * </tr> 1428 * </tbody> 1429 * </table> 1430 * <p>When {@link CaptureRequest#CONTROL_AF_MODE android.control.afMode} is AF_MODE_CONTINUOUS_VIDEO:</p> 1431 * <table> 1432 * <thead> 1433 * <tr> 1434 * <th align="center">State</th> 1435 * <th align="center">Transition Cause</th> 1436 * <th align="center">New State</th> 1437 * <th align="center">Notes</th> 1438 * </tr> 1439 * </thead> 1440 * <tbody> 1441 * <tr> 1442 * <td align="center">INACTIVE</td> 1443 * <td align="center">Camera device initiates new scan</td> 1444 * <td align="center">PASSIVE_SCAN</td> 1445 * <td align="center">Start AF scan, Lens now moving</td> 1446 * </tr> 1447 * <tr> 1448 * <td align="center">INACTIVE</td> 1449 * <td align="center">AF_TRIGGER</td> 1450 * <td align="center">NOT_FOCUSED_LOCKED</td> 1451 * <td align="center">AF state query, Lens now locked</td> 1452 * </tr> 1453 * <tr> 1454 * <td align="center">PASSIVE_SCAN</td> 1455 * <td align="center">Camera device completes current scan</td> 1456 * <td align="center">PASSIVE_FOCUSED</td> 1457 * <td align="center">End AF scan, Lens now locked</td> 1458 * </tr> 1459 * <tr> 1460 * <td align="center">PASSIVE_SCAN</td> 1461 * <td align="center">Camera device fails current scan</td> 1462 * <td align="center">PASSIVE_UNFOCUSED</td> 1463 * <td align="center">End AF scan, Lens now locked</td> 1464 * </tr> 1465 * <tr> 1466 * <td align="center">PASSIVE_SCAN</td> 1467 * <td align="center">AF_TRIGGER</td> 1468 * <td align="center">FOCUSED_LOCKED</td> 1469 * <td align="center">Immediate transition, if focus is good. Lens now locked</td> 1470 * </tr> 1471 * <tr> 1472 * <td align="center">PASSIVE_SCAN</td> 1473 * <td align="center">AF_TRIGGER</td> 1474 * <td align="center">NOT_FOCUSED_LOCKED</td> 1475 * <td align="center">Immediate transition, if focus is bad. Lens now locked</td> 1476 * </tr> 1477 * <tr> 1478 * <td align="center">PASSIVE_SCAN</td> 1479 * <td align="center">AF_CANCEL</td> 1480 * <td align="center">INACTIVE</td> 1481 * <td align="center">Reset lens position, Lens now locked</td> 1482 * </tr> 1483 * <tr> 1484 * <td align="center">PASSIVE_FOCUSED</td> 1485 * <td align="center">Camera device initiates new scan</td> 1486 * <td align="center">PASSIVE_SCAN</td> 1487 * <td align="center">Start AF scan, Lens now moving</td> 1488 * </tr> 1489 * <tr> 1490 * <td align="center">PASSIVE_UNFOCUSED</td> 1491 * <td align="center">Camera device initiates new scan</td> 1492 * <td align="center">PASSIVE_SCAN</td> 1493 * <td align="center">Start AF scan, Lens now moving</td> 1494 * </tr> 1495 * <tr> 1496 * <td align="center">PASSIVE_FOCUSED</td> 1497 * <td align="center">AF_TRIGGER</td> 1498 * <td align="center">FOCUSED_LOCKED</td> 1499 * <td align="center">Immediate transition, lens now locked</td> 1500 * </tr> 1501 * <tr> 1502 * <td align="center">PASSIVE_UNFOCUSED</td> 1503 * <td align="center">AF_TRIGGER</td> 1504 * <td align="center">NOT_FOCUSED_LOCKED</td> 1505 * <td align="center">Immediate transition, lens now locked</td> 1506 * </tr> 1507 * <tr> 1508 * <td align="center">FOCUSED_LOCKED</td> 1509 * <td align="center">AF_TRIGGER</td> 1510 * <td align="center">FOCUSED_LOCKED</td> 1511 * <td align="center">No effect</td> 1512 * </tr> 1513 * <tr> 1514 * <td align="center">FOCUSED_LOCKED</td> 1515 * <td align="center">AF_CANCEL</td> 1516 * <td align="center">INACTIVE</td> 1517 * <td align="center">Restart AF scan</td> 1518 * </tr> 1519 * <tr> 1520 * <td align="center">NOT_FOCUSED_LOCKED</td> 1521 * <td align="center">AF_TRIGGER</td> 1522 * <td align="center">NOT_FOCUSED_LOCKED</td> 1523 * <td align="center">No effect</td> 1524 * </tr> 1525 * <tr> 1526 * <td align="center">NOT_FOCUSED_LOCKED</td> 1527 * <td align="center">AF_CANCEL</td> 1528 * <td align="center">INACTIVE</td> 1529 * <td align="center">Restart AF scan</td> 1530 * </tr> 1531 * </tbody> 1532 * </table> 1533 * <p>When {@link CaptureRequest#CONTROL_AF_MODE android.control.afMode} is AF_MODE_CONTINUOUS_PICTURE:</p> 1534 * <table> 1535 * <thead> 1536 * <tr> 1537 * <th align="center">State</th> 1538 * <th align="center">Transition Cause</th> 1539 * <th align="center">New State</th> 1540 * <th align="center">Notes</th> 1541 * </tr> 1542 * </thead> 1543 * <tbody> 1544 * <tr> 1545 * <td align="center">INACTIVE</td> 1546 * <td align="center">Camera device initiates new scan</td> 1547 * <td align="center">PASSIVE_SCAN</td> 1548 * <td align="center">Start AF scan, Lens now moving</td> 1549 * </tr> 1550 * <tr> 1551 * <td align="center">INACTIVE</td> 1552 * <td align="center">AF_TRIGGER</td> 1553 * <td align="center">NOT_FOCUSED_LOCKED</td> 1554 * <td align="center">AF state query, Lens now locked</td> 1555 * </tr> 1556 * <tr> 1557 * <td align="center">PASSIVE_SCAN</td> 1558 * <td align="center">Camera device completes current scan</td> 1559 * <td align="center">PASSIVE_FOCUSED</td> 1560 * <td align="center">End AF scan, Lens now locked</td> 1561 * </tr> 1562 * <tr> 1563 * <td align="center">PASSIVE_SCAN</td> 1564 * <td align="center">Camera device fails current scan</td> 1565 * <td align="center">PASSIVE_UNFOCUSED</td> 1566 * <td align="center">End AF scan, Lens now locked</td> 1567 * </tr> 1568 * <tr> 1569 * <td align="center">PASSIVE_SCAN</td> 1570 * <td align="center">AF_TRIGGER</td> 1571 * <td align="center">FOCUSED_LOCKED</td> 1572 * <td align="center">Eventual transition once the focus is good. Lens now locked</td> 1573 * </tr> 1574 * <tr> 1575 * <td align="center">PASSIVE_SCAN</td> 1576 * <td align="center">AF_TRIGGER</td> 1577 * <td align="center">NOT_FOCUSED_LOCKED</td> 1578 * <td align="center">Eventual transition if cannot find focus. Lens now locked</td> 1579 * </tr> 1580 * <tr> 1581 * <td align="center">PASSIVE_SCAN</td> 1582 * <td align="center">AF_CANCEL</td> 1583 * <td align="center">INACTIVE</td> 1584 * <td align="center">Reset lens position, Lens now locked</td> 1585 * </tr> 1586 * <tr> 1587 * <td align="center">PASSIVE_FOCUSED</td> 1588 * <td align="center">Camera device initiates new scan</td> 1589 * <td align="center">PASSIVE_SCAN</td> 1590 * <td align="center">Start AF scan, Lens now moving</td> 1591 * </tr> 1592 * <tr> 1593 * <td align="center">PASSIVE_UNFOCUSED</td> 1594 * <td align="center">Camera device initiates new scan</td> 1595 * <td align="center">PASSIVE_SCAN</td> 1596 * <td align="center">Start AF scan, Lens now moving</td> 1597 * </tr> 1598 * <tr> 1599 * <td align="center">PASSIVE_FOCUSED</td> 1600 * <td align="center">AF_TRIGGER</td> 1601 * <td align="center">FOCUSED_LOCKED</td> 1602 * <td align="center">Immediate trans. Lens now locked</td> 1603 * </tr> 1604 * <tr> 1605 * <td align="center">PASSIVE_UNFOCUSED</td> 1606 * <td align="center">AF_TRIGGER</td> 1607 * <td align="center">NOT_FOCUSED_LOCKED</td> 1608 * <td align="center">Immediate trans. Lens now locked</td> 1609 * </tr> 1610 * <tr> 1611 * <td align="center">FOCUSED_LOCKED</td> 1612 * <td align="center">AF_TRIGGER</td> 1613 * <td align="center">FOCUSED_LOCKED</td> 1614 * <td align="center">No effect</td> 1615 * </tr> 1616 * <tr> 1617 * <td align="center">FOCUSED_LOCKED</td> 1618 * <td align="center">AF_CANCEL</td> 1619 * <td align="center">INACTIVE</td> 1620 * <td align="center">Restart AF scan</td> 1621 * </tr> 1622 * <tr> 1623 * <td align="center">NOT_FOCUSED_LOCKED</td> 1624 * <td align="center">AF_TRIGGER</td> 1625 * <td align="center">NOT_FOCUSED_LOCKED</td> 1626 * <td align="center">No effect</td> 1627 * </tr> 1628 * <tr> 1629 * <td align="center">NOT_FOCUSED_LOCKED</td> 1630 * <td align="center">AF_CANCEL</td> 1631 * <td align="center">INACTIVE</td> 1632 * <td align="center">Restart AF scan</td> 1633 * </tr> 1634 * </tbody> 1635 * </table> 1636 * <p>When switch between AF_MODE_CONTINUOUS_* (CAF modes) and AF_MODE_AUTO/AF_MODE_MACRO 1637 * (AUTO modes), the initial INACTIVE or PASSIVE_SCAN states may be skipped by the 1638 * camera device. When a trigger is included in a mode switch request, the trigger 1639 * will be evaluated in the context of the new mode in the request. 1640 * See below table for examples:</p> 1641 * <table> 1642 * <thead> 1643 * <tr> 1644 * <th align="center">State</th> 1645 * <th align="center">Transition Cause</th> 1646 * <th align="center">New State</th> 1647 * <th align="center">Notes</th> 1648 * </tr> 1649 * </thead> 1650 * <tbody> 1651 * <tr> 1652 * <td align="center">any state</td> 1653 * <td align="center">CAF-->AUTO mode switch</td> 1654 * <td align="center">INACTIVE</td> 1655 * <td align="center">Mode switch without trigger, initial state must be INACTIVE</td> 1656 * </tr> 1657 * <tr> 1658 * <td align="center">any state</td> 1659 * <td align="center">CAF-->AUTO mode switch with AF_TRIGGER</td> 1660 * <td align="center">trigger-reachable states from INACTIVE</td> 1661 * <td align="center">Mode switch with trigger, INACTIVE is skipped</td> 1662 * </tr> 1663 * <tr> 1664 * <td align="center">any state</td> 1665 * <td align="center">AUTO-->CAF mode switch</td> 1666 * <td align="center">passively reachable states from INACTIVE</td> 1667 * <td align="center">Mode switch without trigger, passive transient state is skipped</td> 1668 * </tr> 1669 * </tbody> 1670 * </table> 1671 * <p><b>Possible values:</b> 1672 * <ul> 1673 * <li>{@link #CONTROL_AF_STATE_INACTIVE INACTIVE}</li> 1674 * <li>{@link #CONTROL_AF_STATE_PASSIVE_SCAN PASSIVE_SCAN}</li> 1675 * <li>{@link #CONTROL_AF_STATE_PASSIVE_FOCUSED PASSIVE_FOCUSED}</li> 1676 * <li>{@link #CONTROL_AF_STATE_ACTIVE_SCAN ACTIVE_SCAN}</li> 1677 * <li>{@link #CONTROL_AF_STATE_FOCUSED_LOCKED FOCUSED_LOCKED}</li> 1678 * <li>{@link #CONTROL_AF_STATE_NOT_FOCUSED_LOCKED NOT_FOCUSED_LOCKED}</li> 1679 * <li>{@link #CONTROL_AF_STATE_PASSIVE_UNFOCUSED PASSIVE_UNFOCUSED}</li> 1680 * </ul></p> 1681 * <p>This key is available on all devices.</p> 1682 * 1683 * @see CaptureRequest#CONTROL_AF_MODE 1684 * @see CaptureRequest#CONTROL_MODE 1685 * @see CaptureRequest#CONTROL_SCENE_MODE 1686 * @see #CONTROL_AF_STATE_INACTIVE 1687 * @see #CONTROL_AF_STATE_PASSIVE_SCAN 1688 * @see #CONTROL_AF_STATE_PASSIVE_FOCUSED 1689 * @see #CONTROL_AF_STATE_ACTIVE_SCAN 1690 * @see #CONTROL_AF_STATE_FOCUSED_LOCKED 1691 * @see #CONTROL_AF_STATE_NOT_FOCUSED_LOCKED 1692 * @see #CONTROL_AF_STATE_PASSIVE_UNFOCUSED 1693 */ 1694 @PublicKey 1695 @NonNull 1696 public static final Key<Integer> CONTROL_AF_STATE = 1697 new Key<Integer>("android.control.afState", int.class); 1698 1699 /** 1700 * <p>Whether auto-white balance (AWB) is currently locked to its 1701 * latest calculated values.</p> 1702 * <p>When set to <code>true</code> (ON), the AWB algorithm is locked to its latest parameters, 1703 * and will not change color balance settings until the lock is set to <code>false</code> (OFF).</p> 1704 * <p>Since the camera device has a pipeline of in-flight requests, the settings that 1705 * get locked do not necessarily correspond to the settings that were present in the 1706 * latest capture result received from the camera device, since additional captures 1707 * and AWB updates may have occurred even before the result was sent out. If an 1708 * application is switching between automatic and manual control and wishes to eliminate 1709 * any flicker during the switch, the following procedure is recommended:</p> 1710 * <ol> 1711 * <li>Starting in auto-AWB mode:</li> 1712 * <li>Lock AWB</li> 1713 * <li>Wait for the first result to be output that has the AWB locked</li> 1714 * <li>Copy AWB settings from that result into a request, set the request to manual AWB</li> 1715 * <li>Submit the capture request, proceed to run manual AWB as desired.</li> 1716 * </ol> 1717 * <p>Note that AWB lock is only meaningful when 1718 * {@link CaptureRequest#CONTROL_AWB_MODE android.control.awbMode} is in the AUTO mode; in other modes, 1719 * AWB is already fixed to a specific setting.</p> 1720 * <p>Some LEGACY devices may not support ON; the value is then overridden to OFF.</p> 1721 * <p>This key is available on all devices.</p> 1722 * 1723 * @see CaptureRequest#CONTROL_AWB_MODE 1724 */ 1725 @PublicKey 1726 @NonNull 1727 public static final Key<Boolean> CONTROL_AWB_LOCK = 1728 new Key<Boolean>("android.control.awbLock", boolean.class); 1729 1730 /** 1731 * <p>Whether auto-white balance (AWB) is currently setting the color 1732 * transform fields, and what its illumination target 1733 * is.</p> 1734 * <p>This control is only effective if {@link CaptureRequest#CONTROL_MODE android.control.mode} is AUTO.</p> 1735 * <p>When set to the ON mode, the camera device's auto-white balance 1736 * routine is enabled, overriding the application's selected 1737 * {@link CaptureRequest#COLOR_CORRECTION_TRANSFORM android.colorCorrection.transform}, {@link CaptureRequest#COLOR_CORRECTION_GAINS android.colorCorrection.gains} and 1738 * {@link CaptureRequest#COLOR_CORRECTION_MODE android.colorCorrection.mode}. Note that when {@link CaptureRequest#CONTROL_AE_MODE android.control.aeMode} 1739 * is OFF, the behavior of AWB is device dependent. It is recommened to 1740 * also set AWB mode to OFF or lock AWB by using {@link CaptureRequest#CONTROL_AWB_LOCK android.control.awbLock} before 1741 * setting AE mode to OFF.</p> 1742 * <p>When set to the OFF mode, the camera device's auto-white balance 1743 * routine is disabled. The application manually controls the white 1744 * balance by {@link CaptureRequest#COLOR_CORRECTION_TRANSFORM android.colorCorrection.transform}, {@link CaptureRequest#COLOR_CORRECTION_GAINS android.colorCorrection.gains} 1745 * and {@link CaptureRequest#COLOR_CORRECTION_MODE android.colorCorrection.mode}.</p> 1746 * <p>When set to any other modes, the camera device's auto-white 1747 * balance routine is disabled. The camera device uses each 1748 * particular illumination target for white balance 1749 * adjustment. The application's values for 1750 * {@link CaptureRequest#COLOR_CORRECTION_TRANSFORM android.colorCorrection.transform}, 1751 * {@link CaptureRequest#COLOR_CORRECTION_GAINS android.colorCorrection.gains} and 1752 * {@link CaptureRequest#COLOR_CORRECTION_MODE android.colorCorrection.mode} are ignored.</p> 1753 * <p><b>Possible values:</b> 1754 * <ul> 1755 * <li>{@link #CONTROL_AWB_MODE_OFF OFF}</li> 1756 * <li>{@link #CONTROL_AWB_MODE_AUTO AUTO}</li> 1757 * <li>{@link #CONTROL_AWB_MODE_INCANDESCENT INCANDESCENT}</li> 1758 * <li>{@link #CONTROL_AWB_MODE_FLUORESCENT FLUORESCENT}</li> 1759 * <li>{@link #CONTROL_AWB_MODE_WARM_FLUORESCENT WARM_FLUORESCENT}</li> 1760 * <li>{@link #CONTROL_AWB_MODE_DAYLIGHT DAYLIGHT}</li> 1761 * <li>{@link #CONTROL_AWB_MODE_CLOUDY_DAYLIGHT CLOUDY_DAYLIGHT}</li> 1762 * <li>{@link #CONTROL_AWB_MODE_TWILIGHT TWILIGHT}</li> 1763 * <li>{@link #CONTROL_AWB_MODE_SHADE SHADE}</li> 1764 * </ul></p> 1765 * <p><b>Available values for this device:</b><br> 1766 * {@link CameraCharacteristics#CONTROL_AWB_AVAILABLE_MODES android.control.awbAvailableModes}</p> 1767 * <p>This key is available on all devices.</p> 1768 * 1769 * @see CaptureRequest#COLOR_CORRECTION_GAINS 1770 * @see CaptureRequest#COLOR_CORRECTION_MODE 1771 * @see CaptureRequest#COLOR_CORRECTION_TRANSFORM 1772 * @see CaptureRequest#CONTROL_AE_MODE 1773 * @see CameraCharacteristics#CONTROL_AWB_AVAILABLE_MODES 1774 * @see CaptureRequest#CONTROL_AWB_LOCK 1775 * @see CaptureRequest#CONTROL_MODE 1776 * @see #CONTROL_AWB_MODE_OFF 1777 * @see #CONTROL_AWB_MODE_AUTO 1778 * @see #CONTROL_AWB_MODE_INCANDESCENT 1779 * @see #CONTROL_AWB_MODE_FLUORESCENT 1780 * @see #CONTROL_AWB_MODE_WARM_FLUORESCENT 1781 * @see #CONTROL_AWB_MODE_DAYLIGHT 1782 * @see #CONTROL_AWB_MODE_CLOUDY_DAYLIGHT 1783 * @see #CONTROL_AWB_MODE_TWILIGHT 1784 * @see #CONTROL_AWB_MODE_SHADE 1785 */ 1786 @PublicKey 1787 @NonNull 1788 public static final Key<Integer> CONTROL_AWB_MODE = 1789 new Key<Integer>("android.control.awbMode", int.class); 1790 1791 /** 1792 * <p>List of metering areas to use for auto-white-balance illuminant 1793 * estimation.</p> 1794 * <p>Not available if {@link CameraCharacteristics#CONTROL_MAX_REGIONS_AWB android.control.maxRegionsAwb} is 0. 1795 * Otherwise will always be present.</p> 1796 * <p>The maximum number of regions supported by the device is determined by the value 1797 * of {@link CameraCharacteristics#CONTROL_MAX_REGIONS_AWB android.control.maxRegionsAwb}.</p> 1798 * <p>For devices not supporting {@link CaptureRequest#DISTORTION_CORRECTION_MODE android.distortionCorrection.mode} control, the coordinate 1799 * system always follows that of {@link CameraCharacteristics#SENSOR_INFO_ACTIVE_ARRAY_SIZE android.sensor.info.activeArraySize}, with (0,0) being 1800 * the top-left pixel in the active pixel array, and 1801 * ({@link CameraCharacteristics#SENSOR_INFO_ACTIVE_ARRAY_SIZE android.sensor.info.activeArraySize}.width - 1, 1802 * {@link CameraCharacteristics#SENSOR_INFO_ACTIVE_ARRAY_SIZE android.sensor.info.activeArraySize}.height - 1) being the bottom-right pixel in the 1803 * active pixel array.</p> 1804 * <p>For devices supporting {@link CaptureRequest#DISTORTION_CORRECTION_MODE android.distortionCorrection.mode} control, the coordinate 1805 * system depends on the mode being set. 1806 * When the distortion correction mode is OFF, the coordinate system follows 1807 * {@link CameraCharacteristics#SENSOR_INFO_PRE_CORRECTION_ACTIVE_ARRAY_SIZE android.sensor.info.preCorrectionActiveArraySize}, with 1808 * <code>(0, 0)</code> being the top-left pixel of the pre-correction active array, and 1809 * ({@link CameraCharacteristics#SENSOR_INFO_PRE_CORRECTION_ACTIVE_ARRAY_SIZE android.sensor.info.preCorrectionActiveArraySize}.width - 1, 1810 * {@link CameraCharacteristics#SENSOR_INFO_PRE_CORRECTION_ACTIVE_ARRAY_SIZE android.sensor.info.preCorrectionActiveArraySize}.height - 1) being the bottom-right 1811 * pixel in the pre-correction active pixel array. 1812 * When the distortion correction mode is not OFF, the coordinate system follows 1813 * {@link CameraCharacteristics#SENSOR_INFO_ACTIVE_ARRAY_SIZE android.sensor.info.activeArraySize}, with 1814 * <code>(0, 0)</code> being the top-left pixel of the active array, and 1815 * ({@link CameraCharacteristics#SENSOR_INFO_ACTIVE_ARRAY_SIZE android.sensor.info.activeArraySize}.width - 1, 1816 * {@link CameraCharacteristics#SENSOR_INFO_ACTIVE_ARRAY_SIZE android.sensor.info.activeArraySize}.height - 1) being the bottom-right pixel in the 1817 * active pixel array.</p> 1818 * <p>The weight must range from 0 to 1000, and represents a weight 1819 * for every pixel in the area. This means that a large metering area 1820 * with the same weight as a smaller area will have more effect in 1821 * the metering result. Metering areas can partially overlap and the 1822 * camera device will add the weights in the overlap region.</p> 1823 * <p>The weights are relative to weights of other white balance metering regions, so if 1824 * only one region is used, all non-zero weights will have the same effect. A region with 1825 * 0 weight is ignored.</p> 1826 * <p>If all regions have 0 weight, then no specific metering area needs to be used by the 1827 * camera device.</p> 1828 * <p>If the metering region is outside the used {@link CaptureRequest#SCALER_CROP_REGION android.scaler.cropRegion} returned in 1829 * capture result metadata, the camera device will ignore the sections outside the crop 1830 * region and output only the intersection rectangle as the metering region in the result 1831 * metadata. If the region is entirely outside the crop region, it will be ignored and 1832 * not reported in the result metadata.</p> 1833 * <p><b>Units</b>: Pixel coordinates within {@link CameraCharacteristics#SENSOR_INFO_ACTIVE_ARRAY_SIZE android.sensor.info.activeArraySize} or 1834 * {@link CameraCharacteristics#SENSOR_INFO_PRE_CORRECTION_ACTIVE_ARRAY_SIZE android.sensor.info.preCorrectionActiveArraySize} depending on 1835 * distortion correction capability and mode</p> 1836 * <p><b>Range of valid values:</b><br> 1837 * Coordinates must be between <code>[(0,0), (width, height))</code> of 1838 * {@link CameraCharacteristics#SENSOR_INFO_ACTIVE_ARRAY_SIZE android.sensor.info.activeArraySize} or {@link CameraCharacteristics#SENSOR_INFO_PRE_CORRECTION_ACTIVE_ARRAY_SIZE android.sensor.info.preCorrectionActiveArraySize} 1839 * depending on distortion correction capability and mode</p> 1840 * <p><b>Optional</b> - The value for this key may be {@code null} on some devices.</p> 1841 * 1842 * @see CameraCharacteristics#CONTROL_MAX_REGIONS_AWB 1843 * @see CaptureRequest#DISTORTION_CORRECTION_MODE 1844 * @see CaptureRequest#SCALER_CROP_REGION 1845 * @see CameraCharacteristics#SENSOR_INFO_ACTIVE_ARRAY_SIZE 1846 * @see CameraCharacteristics#SENSOR_INFO_PRE_CORRECTION_ACTIVE_ARRAY_SIZE 1847 */ 1848 @PublicKey 1849 @NonNull 1850 public static final Key<android.hardware.camera2.params.MeteringRectangle[]> CONTROL_AWB_REGIONS = 1851 new Key<android.hardware.camera2.params.MeteringRectangle[]>("android.control.awbRegions", android.hardware.camera2.params.MeteringRectangle[].class); 1852 1853 /** 1854 * <p>Information to the camera device 3A (auto-exposure, 1855 * auto-focus, auto-white balance) routines about the purpose 1856 * of this capture, to help the camera device to decide optimal 3A 1857 * strategy.</p> 1858 * <p>This control (except for MANUAL) is only effective if 1859 * <code>{@link CaptureRequest#CONTROL_MODE android.control.mode} != OFF</code> and any 3A routine is active.</p> 1860 * <p>All intents are supported by all devices, except that: 1861 * * ZERO_SHUTTER_LAG will be supported if {@link CameraCharacteristics#REQUEST_AVAILABLE_CAPABILITIES android.request.availableCapabilities} contains 1862 * PRIVATE_REPROCESSING or YUV_REPROCESSING. 1863 * * MANUAL will be supported if {@link CameraCharacteristics#REQUEST_AVAILABLE_CAPABILITIES android.request.availableCapabilities} contains 1864 * MANUAL_SENSOR. 1865 * * MOTION_TRACKING will be supported if {@link CameraCharacteristics#REQUEST_AVAILABLE_CAPABILITIES android.request.availableCapabilities} contains 1866 * MOTION_TRACKING.</p> 1867 * <p><b>Possible values:</b> 1868 * <ul> 1869 * <li>{@link #CONTROL_CAPTURE_INTENT_CUSTOM CUSTOM}</li> 1870 * <li>{@link #CONTROL_CAPTURE_INTENT_PREVIEW PREVIEW}</li> 1871 * <li>{@link #CONTROL_CAPTURE_INTENT_STILL_CAPTURE STILL_CAPTURE}</li> 1872 * <li>{@link #CONTROL_CAPTURE_INTENT_VIDEO_RECORD VIDEO_RECORD}</li> 1873 * <li>{@link #CONTROL_CAPTURE_INTENT_VIDEO_SNAPSHOT VIDEO_SNAPSHOT}</li> 1874 * <li>{@link #CONTROL_CAPTURE_INTENT_ZERO_SHUTTER_LAG ZERO_SHUTTER_LAG}</li> 1875 * <li>{@link #CONTROL_CAPTURE_INTENT_MANUAL MANUAL}</li> 1876 * <li>{@link #CONTROL_CAPTURE_INTENT_MOTION_TRACKING MOTION_TRACKING}</li> 1877 * </ul></p> 1878 * <p>This key is available on all devices.</p> 1879 * 1880 * @see CaptureRequest#CONTROL_MODE 1881 * @see CameraCharacteristics#REQUEST_AVAILABLE_CAPABILITIES 1882 * @see #CONTROL_CAPTURE_INTENT_CUSTOM 1883 * @see #CONTROL_CAPTURE_INTENT_PREVIEW 1884 * @see #CONTROL_CAPTURE_INTENT_STILL_CAPTURE 1885 * @see #CONTROL_CAPTURE_INTENT_VIDEO_RECORD 1886 * @see #CONTROL_CAPTURE_INTENT_VIDEO_SNAPSHOT 1887 * @see #CONTROL_CAPTURE_INTENT_ZERO_SHUTTER_LAG 1888 * @see #CONTROL_CAPTURE_INTENT_MANUAL 1889 * @see #CONTROL_CAPTURE_INTENT_MOTION_TRACKING 1890 */ 1891 @PublicKey 1892 @NonNull 1893 public static final Key<Integer> CONTROL_CAPTURE_INTENT = 1894 new Key<Integer>("android.control.captureIntent", int.class); 1895 1896 /** 1897 * <p>Current state of auto-white balance (AWB) algorithm.</p> 1898 * <p>Switching between or enabling AWB modes ({@link CaptureRequest#CONTROL_AWB_MODE android.control.awbMode}) always 1899 * resets the AWB state to INACTIVE. Similarly, switching between {@link CaptureRequest#CONTROL_MODE android.control.mode}, 1900 * or {@link CaptureRequest#CONTROL_SCENE_MODE android.control.sceneMode} if <code>{@link CaptureRequest#CONTROL_MODE android.control.mode} == USE_SCENE_MODE</code> resets all 1901 * the algorithm states to INACTIVE.</p> 1902 * <p>The camera device can do several state transitions between two results, if it is 1903 * allowed by the state transition table. So INACTIVE may never actually be seen in 1904 * a result.</p> 1905 * <p>The state in the result is the state for this image (in sync with this image): if 1906 * AWB state becomes CONVERGED, then the image data associated with this result should 1907 * be good to use.</p> 1908 * <p>Below are state transition tables for different AWB modes.</p> 1909 * <p>When <code>{@link CaptureRequest#CONTROL_AWB_MODE android.control.awbMode} != AWB_MODE_AUTO</code>:</p> 1910 * <table> 1911 * <thead> 1912 * <tr> 1913 * <th align="center">State</th> 1914 * <th align="center">Transition Cause</th> 1915 * <th align="center">New State</th> 1916 * <th align="center">Notes</th> 1917 * </tr> 1918 * </thead> 1919 * <tbody> 1920 * <tr> 1921 * <td align="center">INACTIVE</td> 1922 * <td align="center"></td> 1923 * <td align="center">INACTIVE</td> 1924 * <td align="center">Camera device auto white balance algorithm is disabled</td> 1925 * </tr> 1926 * </tbody> 1927 * </table> 1928 * <p>When {@link CaptureRequest#CONTROL_AWB_MODE android.control.awbMode} is AWB_MODE_AUTO:</p> 1929 * <table> 1930 * <thead> 1931 * <tr> 1932 * <th align="center">State</th> 1933 * <th align="center">Transition Cause</th> 1934 * <th align="center">New State</th> 1935 * <th align="center">Notes</th> 1936 * </tr> 1937 * </thead> 1938 * <tbody> 1939 * <tr> 1940 * <td align="center">INACTIVE</td> 1941 * <td align="center">Camera device initiates AWB scan</td> 1942 * <td align="center">SEARCHING</td> 1943 * <td align="center">Values changing</td> 1944 * </tr> 1945 * <tr> 1946 * <td align="center">INACTIVE</td> 1947 * <td align="center">{@link CaptureRequest#CONTROL_AWB_LOCK android.control.awbLock} is ON</td> 1948 * <td align="center">LOCKED</td> 1949 * <td align="center">Values locked</td> 1950 * </tr> 1951 * <tr> 1952 * <td align="center">SEARCHING</td> 1953 * <td align="center">Camera device finishes AWB scan</td> 1954 * <td align="center">CONVERGED</td> 1955 * <td align="center">Good values, not changing</td> 1956 * </tr> 1957 * <tr> 1958 * <td align="center">SEARCHING</td> 1959 * <td align="center">{@link CaptureRequest#CONTROL_AWB_LOCK android.control.awbLock} is ON</td> 1960 * <td align="center">LOCKED</td> 1961 * <td align="center">Values locked</td> 1962 * </tr> 1963 * <tr> 1964 * <td align="center">CONVERGED</td> 1965 * <td align="center">Camera device initiates AWB scan</td> 1966 * <td align="center">SEARCHING</td> 1967 * <td align="center">Values changing</td> 1968 * </tr> 1969 * <tr> 1970 * <td align="center">CONVERGED</td> 1971 * <td align="center">{@link CaptureRequest#CONTROL_AWB_LOCK android.control.awbLock} is ON</td> 1972 * <td align="center">LOCKED</td> 1973 * <td align="center">Values locked</td> 1974 * </tr> 1975 * <tr> 1976 * <td align="center">LOCKED</td> 1977 * <td align="center">{@link CaptureRequest#CONTROL_AWB_LOCK android.control.awbLock} is OFF</td> 1978 * <td align="center">SEARCHING</td> 1979 * <td align="center">Values not good after unlock</td> 1980 * </tr> 1981 * </tbody> 1982 * </table> 1983 * <p>For the above table, the camera device may skip reporting any state changes that happen 1984 * without application intervention (i.e. mode switch, trigger, locking). Any state that 1985 * can be skipped in that manner is called a transient state.</p> 1986 * <p>For example, for this AWB mode (AWB_MODE_AUTO), in addition to the state transitions 1987 * listed in above table, it is also legal for the camera device to skip one or more 1988 * transient states between two results. See below table for examples:</p> 1989 * <table> 1990 * <thead> 1991 * <tr> 1992 * <th align="center">State</th> 1993 * <th align="center">Transition Cause</th> 1994 * <th align="center">New State</th> 1995 * <th align="center">Notes</th> 1996 * </tr> 1997 * </thead> 1998 * <tbody> 1999 * <tr> 2000 * <td align="center">INACTIVE</td> 2001 * <td align="center">Camera device finished AWB scan</td> 2002 * <td align="center">CONVERGED</td> 2003 * <td align="center">Values are already good, transient states are skipped by camera device.</td> 2004 * </tr> 2005 * <tr> 2006 * <td align="center">LOCKED</td> 2007 * <td align="center">{@link CaptureRequest#CONTROL_AWB_LOCK android.control.awbLock} is OFF</td> 2008 * <td align="center">CONVERGED</td> 2009 * <td align="center">Values good after unlock, transient states are skipped by camera device.</td> 2010 * </tr> 2011 * </tbody> 2012 * </table> 2013 * <p><b>Possible values:</b> 2014 * <ul> 2015 * <li>{@link #CONTROL_AWB_STATE_INACTIVE INACTIVE}</li> 2016 * <li>{@link #CONTROL_AWB_STATE_SEARCHING SEARCHING}</li> 2017 * <li>{@link #CONTROL_AWB_STATE_CONVERGED CONVERGED}</li> 2018 * <li>{@link #CONTROL_AWB_STATE_LOCKED LOCKED}</li> 2019 * </ul></p> 2020 * <p><b>Optional</b> - The value for this key may be {@code null} on some devices.</p> 2021 * <p><b>Limited capability</b> - 2022 * Present on all camera devices that report being at least {@link CameraCharacteristics#INFO_SUPPORTED_HARDWARE_LEVEL_LIMITED HARDWARE_LEVEL_LIMITED} devices in the 2023 * {@link CameraCharacteristics#INFO_SUPPORTED_HARDWARE_LEVEL android.info.supportedHardwareLevel} key</p> 2024 * 2025 * @see CaptureRequest#CONTROL_AWB_LOCK 2026 * @see CaptureRequest#CONTROL_AWB_MODE 2027 * @see CaptureRequest#CONTROL_MODE 2028 * @see CaptureRequest#CONTROL_SCENE_MODE 2029 * @see CameraCharacteristics#INFO_SUPPORTED_HARDWARE_LEVEL 2030 * @see #CONTROL_AWB_STATE_INACTIVE 2031 * @see #CONTROL_AWB_STATE_SEARCHING 2032 * @see #CONTROL_AWB_STATE_CONVERGED 2033 * @see #CONTROL_AWB_STATE_LOCKED 2034 */ 2035 @PublicKey 2036 @NonNull 2037 public static final Key<Integer> CONTROL_AWB_STATE = 2038 new Key<Integer>("android.control.awbState", int.class); 2039 2040 /** 2041 * <p>A special color effect to apply.</p> 2042 * <p>When this mode is set, a color effect will be applied 2043 * to images produced by the camera device. The interpretation 2044 * and implementation of these color effects is left to the 2045 * implementor of the camera device, and should not be 2046 * depended on to be consistent (or present) across all 2047 * devices.</p> 2048 * <p><b>Possible values:</b> 2049 * <ul> 2050 * <li>{@link #CONTROL_EFFECT_MODE_OFF OFF}</li> 2051 * <li>{@link #CONTROL_EFFECT_MODE_MONO MONO}</li> 2052 * <li>{@link #CONTROL_EFFECT_MODE_NEGATIVE NEGATIVE}</li> 2053 * <li>{@link #CONTROL_EFFECT_MODE_SOLARIZE SOLARIZE}</li> 2054 * <li>{@link #CONTROL_EFFECT_MODE_SEPIA SEPIA}</li> 2055 * <li>{@link #CONTROL_EFFECT_MODE_POSTERIZE POSTERIZE}</li> 2056 * <li>{@link #CONTROL_EFFECT_MODE_WHITEBOARD WHITEBOARD}</li> 2057 * <li>{@link #CONTROL_EFFECT_MODE_BLACKBOARD BLACKBOARD}</li> 2058 * <li>{@link #CONTROL_EFFECT_MODE_AQUA AQUA}</li> 2059 * </ul></p> 2060 * <p><b>Available values for this device:</b><br> 2061 * {@link CameraCharacteristics#CONTROL_AVAILABLE_EFFECTS android.control.availableEffects}</p> 2062 * <p>This key is available on all devices.</p> 2063 * 2064 * @see CameraCharacteristics#CONTROL_AVAILABLE_EFFECTS 2065 * @see #CONTROL_EFFECT_MODE_OFF 2066 * @see #CONTROL_EFFECT_MODE_MONO 2067 * @see #CONTROL_EFFECT_MODE_NEGATIVE 2068 * @see #CONTROL_EFFECT_MODE_SOLARIZE 2069 * @see #CONTROL_EFFECT_MODE_SEPIA 2070 * @see #CONTROL_EFFECT_MODE_POSTERIZE 2071 * @see #CONTROL_EFFECT_MODE_WHITEBOARD 2072 * @see #CONTROL_EFFECT_MODE_BLACKBOARD 2073 * @see #CONTROL_EFFECT_MODE_AQUA 2074 */ 2075 @PublicKey 2076 @NonNull 2077 public static final Key<Integer> CONTROL_EFFECT_MODE = 2078 new Key<Integer>("android.control.effectMode", int.class); 2079 2080 /** 2081 * <p>Overall mode of 3A (auto-exposure, auto-white-balance, auto-focus) control 2082 * routines.</p> 2083 * <p>This is a top-level 3A control switch. When set to OFF, all 3A control 2084 * by the camera device is disabled. The application must set the fields for 2085 * capture parameters itself.</p> 2086 * <p>When set to AUTO, the individual algorithm controls in 2087 * android.control.* are in effect, such as {@link CaptureRequest#CONTROL_AF_MODE android.control.afMode}.</p> 2088 * <p>When set to USE_SCENE_MODE, the individual controls in 2089 * android.control.* are mostly disabled, and the camera device 2090 * implements one of the scene mode settings (such as ACTION, 2091 * SUNSET, or PARTY) as it wishes. The camera device scene mode 2092 * 3A settings are provided by {@link android.hardware.camera2.CaptureResult capture results}.</p> 2093 * <p>When set to OFF_KEEP_STATE, it is similar to OFF mode, the only difference 2094 * is that this frame will not be used by camera device background 3A statistics 2095 * update, as if this frame is never captured. This mode can be used in the scenario 2096 * where the application doesn't want a 3A manual control capture to affect 2097 * the subsequent auto 3A capture results.</p> 2098 * <p><b>Possible values:</b> 2099 * <ul> 2100 * <li>{@link #CONTROL_MODE_OFF OFF}</li> 2101 * <li>{@link #CONTROL_MODE_AUTO AUTO}</li> 2102 * <li>{@link #CONTROL_MODE_USE_SCENE_MODE USE_SCENE_MODE}</li> 2103 * <li>{@link #CONTROL_MODE_OFF_KEEP_STATE OFF_KEEP_STATE}</li> 2104 * </ul></p> 2105 * <p><b>Available values for this device:</b><br> 2106 * {@link CameraCharacteristics#CONTROL_AVAILABLE_MODES android.control.availableModes}</p> 2107 * <p>This key is available on all devices.</p> 2108 * 2109 * @see CaptureRequest#CONTROL_AF_MODE 2110 * @see CameraCharacteristics#CONTROL_AVAILABLE_MODES 2111 * @see #CONTROL_MODE_OFF 2112 * @see #CONTROL_MODE_AUTO 2113 * @see #CONTROL_MODE_USE_SCENE_MODE 2114 * @see #CONTROL_MODE_OFF_KEEP_STATE 2115 */ 2116 @PublicKey 2117 @NonNull 2118 public static final Key<Integer> CONTROL_MODE = 2119 new Key<Integer>("android.control.mode", int.class); 2120 2121 /** 2122 * <p>Control for which scene mode is currently active.</p> 2123 * <p>Scene modes are custom camera modes optimized for a certain set of conditions and 2124 * capture settings.</p> 2125 * <p>This is the mode that that is active when 2126 * <code>{@link CaptureRequest#CONTROL_MODE android.control.mode} == USE_SCENE_MODE</code>. Aside from FACE_PRIORITY, these modes will 2127 * disable {@link CaptureRequest#CONTROL_AE_MODE android.control.aeMode}, {@link CaptureRequest#CONTROL_AWB_MODE android.control.awbMode}, and {@link CaptureRequest#CONTROL_AF_MODE android.control.afMode} 2128 * while in use.</p> 2129 * <p>The interpretation and implementation of these scene modes is left 2130 * to the implementor of the camera device. Their behavior will not be 2131 * consistent across all devices, and any given device may only implement 2132 * a subset of these modes.</p> 2133 * <p><b>Possible values:</b> 2134 * <ul> 2135 * <li>{@link #CONTROL_SCENE_MODE_DISABLED DISABLED}</li> 2136 * <li>{@link #CONTROL_SCENE_MODE_FACE_PRIORITY FACE_PRIORITY}</li> 2137 * <li>{@link #CONTROL_SCENE_MODE_ACTION ACTION}</li> 2138 * <li>{@link #CONTROL_SCENE_MODE_PORTRAIT PORTRAIT}</li> 2139 * <li>{@link #CONTROL_SCENE_MODE_LANDSCAPE LANDSCAPE}</li> 2140 * <li>{@link #CONTROL_SCENE_MODE_NIGHT NIGHT}</li> 2141 * <li>{@link #CONTROL_SCENE_MODE_NIGHT_PORTRAIT NIGHT_PORTRAIT}</li> 2142 * <li>{@link #CONTROL_SCENE_MODE_THEATRE THEATRE}</li> 2143 * <li>{@link #CONTROL_SCENE_MODE_BEACH BEACH}</li> 2144 * <li>{@link #CONTROL_SCENE_MODE_SNOW SNOW}</li> 2145 * <li>{@link #CONTROL_SCENE_MODE_SUNSET SUNSET}</li> 2146 * <li>{@link #CONTROL_SCENE_MODE_STEADYPHOTO STEADYPHOTO}</li> 2147 * <li>{@link #CONTROL_SCENE_MODE_FIREWORKS FIREWORKS}</li> 2148 * <li>{@link #CONTROL_SCENE_MODE_SPORTS SPORTS}</li> 2149 * <li>{@link #CONTROL_SCENE_MODE_PARTY PARTY}</li> 2150 * <li>{@link #CONTROL_SCENE_MODE_CANDLELIGHT CANDLELIGHT}</li> 2151 * <li>{@link #CONTROL_SCENE_MODE_BARCODE BARCODE}</li> 2152 * <li>{@link #CONTROL_SCENE_MODE_HIGH_SPEED_VIDEO HIGH_SPEED_VIDEO}</li> 2153 * <li>{@link #CONTROL_SCENE_MODE_HDR HDR}</li> 2154 * </ul></p> 2155 * <p><b>Available values for this device:</b><br> 2156 * {@link CameraCharacteristics#CONTROL_AVAILABLE_SCENE_MODES android.control.availableSceneModes}</p> 2157 * <p>This key is available on all devices.</p> 2158 * 2159 * @see CaptureRequest#CONTROL_AE_MODE 2160 * @see CaptureRequest#CONTROL_AF_MODE 2161 * @see CameraCharacteristics#CONTROL_AVAILABLE_SCENE_MODES 2162 * @see CaptureRequest#CONTROL_AWB_MODE 2163 * @see CaptureRequest#CONTROL_MODE 2164 * @see #CONTROL_SCENE_MODE_DISABLED 2165 * @see #CONTROL_SCENE_MODE_FACE_PRIORITY 2166 * @see #CONTROL_SCENE_MODE_ACTION 2167 * @see #CONTROL_SCENE_MODE_PORTRAIT 2168 * @see #CONTROL_SCENE_MODE_LANDSCAPE 2169 * @see #CONTROL_SCENE_MODE_NIGHT 2170 * @see #CONTROL_SCENE_MODE_NIGHT_PORTRAIT 2171 * @see #CONTROL_SCENE_MODE_THEATRE 2172 * @see #CONTROL_SCENE_MODE_BEACH 2173 * @see #CONTROL_SCENE_MODE_SNOW 2174 * @see #CONTROL_SCENE_MODE_SUNSET 2175 * @see #CONTROL_SCENE_MODE_STEADYPHOTO 2176 * @see #CONTROL_SCENE_MODE_FIREWORKS 2177 * @see #CONTROL_SCENE_MODE_SPORTS 2178 * @see #CONTROL_SCENE_MODE_PARTY 2179 * @see #CONTROL_SCENE_MODE_CANDLELIGHT 2180 * @see #CONTROL_SCENE_MODE_BARCODE 2181 * @see #CONTROL_SCENE_MODE_HIGH_SPEED_VIDEO 2182 * @see #CONTROL_SCENE_MODE_HDR 2183 */ 2184 @PublicKey 2185 @NonNull 2186 public static final Key<Integer> CONTROL_SCENE_MODE = 2187 new Key<Integer>("android.control.sceneMode", int.class); 2188 2189 /** 2190 * <p>Whether video stabilization is 2191 * active.</p> 2192 * <p>Video stabilization automatically warps images from 2193 * the camera in order to stabilize motion between consecutive frames.</p> 2194 * <p>If enabled, video stabilization can modify the 2195 * {@link CaptureRequest#SCALER_CROP_REGION android.scaler.cropRegion} to keep the video stream stabilized.</p> 2196 * <p>Switching between different video stabilization modes may take several 2197 * frames to initialize, the camera device will report the current mode 2198 * in capture result metadata. For example, When "ON" mode is requested, 2199 * the video stabilization modes in the first several capture results may 2200 * still be "OFF", and it will become "ON" when the initialization is 2201 * done.</p> 2202 * <p>In addition, not all recording sizes or frame rates may be supported for 2203 * stabilization by a device that reports stabilization support. It is guaranteed 2204 * that an output targeting a MediaRecorder or MediaCodec will be stabilized if 2205 * the recording resolution is less than or equal to 1920 x 1080 (width less than 2206 * or equal to 1920, height less than or equal to 1080), and the recording 2207 * frame rate is less than or equal to 30fps. At other sizes, the CaptureResult 2208 * {@link CaptureRequest#CONTROL_VIDEO_STABILIZATION_MODE android.control.videoStabilizationMode} field will return 2209 * OFF if the recording output is not stabilized, or if there are no output 2210 * Surface types that can be stabilized.</p> 2211 * <p>If a camera device supports both this mode and OIS 2212 * ({@link CaptureRequest#LENS_OPTICAL_STABILIZATION_MODE android.lens.opticalStabilizationMode}), turning both modes on may 2213 * produce undesirable interaction, so it is recommended not to enable 2214 * both at the same time.</p> 2215 * <p><b>Possible values:</b> 2216 * <ul> 2217 * <li>{@link #CONTROL_VIDEO_STABILIZATION_MODE_OFF OFF}</li> 2218 * <li>{@link #CONTROL_VIDEO_STABILIZATION_MODE_ON ON}</li> 2219 * </ul></p> 2220 * <p>This key is available on all devices.</p> 2221 * 2222 * @see CaptureRequest#CONTROL_VIDEO_STABILIZATION_MODE 2223 * @see CaptureRequest#LENS_OPTICAL_STABILIZATION_MODE 2224 * @see CaptureRequest#SCALER_CROP_REGION 2225 * @see #CONTROL_VIDEO_STABILIZATION_MODE_OFF 2226 * @see #CONTROL_VIDEO_STABILIZATION_MODE_ON 2227 */ 2228 @PublicKey 2229 @NonNull 2230 public static final Key<Integer> CONTROL_VIDEO_STABILIZATION_MODE = 2231 new Key<Integer>("android.control.videoStabilizationMode", int.class); 2232 2233 /** 2234 * <p>The amount of additional sensitivity boost applied to output images 2235 * after RAW sensor data is captured.</p> 2236 * <p>Some camera devices support additional digital sensitivity boosting in the 2237 * camera processing pipeline after sensor RAW image is captured. 2238 * Such a boost will be applied to YUV/JPEG format output images but will not 2239 * have effect on RAW output formats like RAW_SENSOR, RAW10, RAW12 or RAW_OPAQUE.</p> 2240 * <p>This key will be <code>null</code> for devices that do not support any RAW format 2241 * outputs. For devices that do support RAW format outputs, this key will always 2242 * present, and if a device does not support post RAW sensitivity boost, it will 2243 * list <code>100</code> in this key.</p> 2244 * <p>If the camera device cannot apply the exact boost requested, it will reduce the 2245 * boost to the nearest supported value. 2246 * The final boost value used will be available in the output capture result.</p> 2247 * <p>For devices that support post RAW sensitivity boost, the YUV/JPEG output images 2248 * of such device will have the total sensitivity of 2249 * <code>{@link CaptureRequest#SENSOR_SENSITIVITY android.sensor.sensitivity} * {@link CaptureRequest#CONTROL_POST_RAW_SENSITIVITY_BOOST android.control.postRawSensitivityBoost} / 100</code> 2250 * The sensitivity of RAW format images will always be <code>{@link CaptureRequest#SENSOR_SENSITIVITY android.sensor.sensitivity}</code></p> 2251 * <p>This control is only effective if {@link CaptureRequest#CONTROL_AE_MODE android.control.aeMode} or {@link CaptureRequest#CONTROL_MODE android.control.mode} is set to 2252 * OFF; otherwise the auto-exposure algorithm will override this value.</p> 2253 * <p><b>Units</b>: ISO arithmetic units, the same as {@link CaptureRequest#SENSOR_SENSITIVITY android.sensor.sensitivity}</p> 2254 * <p><b>Range of valid values:</b><br> 2255 * {@link CameraCharacteristics#CONTROL_POST_RAW_SENSITIVITY_BOOST_RANGE android.control.postRawSensitivityBoostRange}</p> 2256 * <p><b>Optional</b> - The value for this key may be {@code null} on some devices.</p> 2257 * 2258 * @see CaptureRequest#CONTROL_AE_MODE 2259 * @see CaptureRequest#CONTROL_MODE 2260 * @see CaptureRequest#CONTROL_POST_RAW_SENSITIVITY_BOOST 2261 * @see CameraCharacteristics#CONTROL_POST_RAW_SENSITIVITY_BOOST_RANGE 2262 * @see CaptureRequest#SENSOR_SENSITIVITY 2263 */ 2264 @PublicKey 2265 @NonNull 2266 public static final Key<Integer> CONTROL_POST_RAW_SENSITIVITY_BOOST = 2267 new Key<Integer>("android.control.postRawSensitivityBoost", int.class); 2268 2269 /** 2270 * <p>Allow camera device to enable zero-shutter-lag mode for requests with 2271 * {@link CaptureRequest#CONTROL_CAPTURE_INTENT android.control.captureIntent} == STILL_CAPTURE.</p> 2272 * <p>If enableZsl is <code>true</code>, the camera device may enable zero-shutter-lag mode for requests with 2273 * STILL_CAPTURE capture intent. The camera device may use images captured in the past to 2274 * produce output images for a zero-shutter-lag request. The result metadata including the 2275 * {@link CaptureResult#SENSOR_TIMESTAMP android.sensor.timestamp} reflects the source frames used to produce output images. 2276 * Therefore, the contents of the output images and the result metadata may be out of order 2277 * compared to previous regular requests. enableZsl does not affect requests with other 2278 * capture intents.</p> 2279 * <p>For example, when requests are submitted in the following order: 2280 * Request A: enableZsl is ON, {@link CaptureRequest#CONTROL_CAPTURE_INTENT android.control.captureIntent} is PREVIEW 2281 * Request B: enableZsl is ON, {@link CaptureRequest#CONTROL_CAPTURE_INTENT android.control.captureIntent} is STILL_CAPTURE</p> 2282 * <p>The output images for request B may have contents captured before the output images for 2283 * request A, and the result metadata for request B may be older than the result metadata for 2284 * request A.</p> 2285 * <p>Note that when enableZsl is <code>true</code>, it is not guaranteed to get output images captured in 2286 * the past for requests with STILL_CAPTURE capture intent.</p> 2287 * <p>For applications targeting SDK versions O and newer, the value of enableZsl in 2288 * TEMPLATE_STILL_CAPTURE template may be <code>true</code>. The value in other templates is always 2289 * <code>false</code> if present.</p> 2290 * <p>For applications targeting SDK versions older than O, the value of enableZsl in all 2291 * capture templates is always <code>false</code> if present.</p> 2292 * <p>For application-operated ZSL, use CAMERA3_TEMPLATE_ZERO_SHUTTER_LAG template.</p> 2293 * <p><b>Optional</b> - The value for this key may be {@code null} on some devices.</p> 2294 * 2295 * @see CaptureRequest#CONTROL_CAPTURE_INTENT 2296 * @see CaptureResult#SENSOR_TIMESTAMP 2297 */ 2298 @PublicKey 2299 @NonNull 2300 public static final Key<Boolean> CONTROL_ENABLE_ZSL = 2301 new Key<Boolean>("android.control.enableZsl", boolean.class); 2302 2303 /** 2304 * <p>Whether a significant scene change is detected within the currently-set AF 2305 * region(s).</p> 2306 * <p>When the camera focus routine detects a change in the scene it is looking at, 2307 * such as a large shift in camera viewpoint, significant motion in the scene, or a 2308 * significant illumination change, this value will be set to DETECTED for a single capture 2309 * result. Otherwise the value will be NOT_DETECTED. The threshold for detection is similar 2310 * to what would trigger a new passive focus scan to begin in CONTINUOUS autofocus modes.</p> 2311 * <p>This key will be available if the camera device advertises this key via {@link android.hardware.camera2.CameraCharacteristics#getAvailableCaptureResultKeys }.</p> 2312 * <p><b>Possible values:</b> 2313 * <ul> 2314 * <li>{@link #CONTROL_AF_SCENE_CHANGE_NOT_DETECTED NOT_DETECTED}</li> 2315 * <li>{@link #CONTROL_AF_SCENE_CHANGE_DETECTED DETECTED}</li> 2316 * </ul></p> 2317 * <p><b>Optional</b> - The value for this key may be {@code null} on some devices.</p> 2318 * @see #CONTROL_AF_SCENE_CHANGE_NOT_DETECTED 2319 * @see #CONTROL_AF_SCENE_CHANGE_DETECTED 2320 */ 2321 @PublicKey 2322 @NonNull 2323 public static final Key<Integer> CONTROL_AF_SCENE_CHANGE = 2324 new Key<Integer>("android.control.afSceneChange", int.class); 2325 2326 /** 2327 * <p>Operation mode for edge 2328 * enhancement.</p> 2329 * <p>Edge enhancement improves sharpness and details in the captured image. OFF means 2330 * no enhancement will be applied by the camera device.</p> 2331 * <p>FAST/HIGH_QUALITY both mean camera device determined enhancement 2332 * will be applied. HIGH_QUALITY mode indicates that the 2333 * camera device will use the highest-quality enhancement algorithms, 2334 * even if it slows down capture rate. FAST means the camera device will 2335 * not slow down capture rate when applying edge enhancement. FAST may be the same as OFF if 2336 * edge enhancement will slow down capture rate. Every output stream will have a similar 2337 * amount of enhancement applied.</p> 2338 * <p>ZERO_SHUTTER_LAG is meant to be used by applications that maintain a continuous circular 2339 * buffer of high-resolution images during preview and reprocess image(s) from that buffer 2340 * into a final capture when triggered by the user. In this mode, the camera device applies 2341 * edge enhancement to low-resolution streams (below maximum recording resolution) to 2342 * maximize preview quality, but does not apply edge enhancement to high-resolution streams, 2343 * since those will be reprocessed later if necessary.</p> 2344 * <p>For YUV_REPROCESSING, these FAST/HIGH_QUALITY modes both mean that the camera 2345 * device will apply FAST/HIGH_QUALITY YUV-domain edge enhancement, respectively. 2346 * The camera device may adjust its internal edge enhancement parameters for best 2347 * image quality based on the {@link CaptureRequest#REPROCESS_EFFECTIVE_EXPOSURE_FACTOR android.reprocess.effectiveExposureFactor}, if it is set.</p> 2348 * <p><b>Possible values:</b> 2349 * <ul> 2350 * <li>{@link #EDGE_MODE_OFF OFF}</li> 2351 * <li>{@link #EDGE_MODE_FAST FAST}</li> 2352 * <li>{@link #EDGE_MODE_HIGH_QUALITY HIGH_QUALITY}</li> 2353 * <li>{@link #EDGE_MODE_ZERO_SHUTTER_LAG ZERO_SHUTTER_LAG}</li> 2354 * </ul></p> 2355 * <p><b>Available values for this device:</b><br> 2356 * {@link CameraCharacteristics#EDGE_AVAILABLE_EDGE_MODES android.edge.availableEdgeModes}</p> 2357 * <p><b>Optional</b> - The value for this key may be {@code null} on some devices.</p> 2358 * <p><b>Full capability</b> - 2359 * Present on all camera devices that report being {@link CameraCharacteristics#INFO_SUPPORTED_HARDWARE_LEVEL_FULL HARDWARE_LEVEL_FULL} devices in the 2360 * {@link CameraCharacteristics#INFO_SUPPORTED_HARDWARE_LEVEL android.info.supportedHardwareLevel} key</p> 2361 * 2362 * @see CameraCharacteristics#EDGE_AVAILABLE_EDGE_MODES 2363 * @see CameraCharacteristics#INFO_SUPPORTED_HARDWARE_LEVEL 2364 * @see CaptureRequest#REPROCESS_EFFECTIVE_EXPOSURE_FACTOR 2365 * @see #EDGE_MODE_OFF 2366 * @see #EDGE_MODE_FAST 2367 * @see #EDGE_MODE_HIGH_QUALITY 2368 * @see #EDGE_MODE_ZERO_SHUTTER_LAG 2369 */ 2370 @PublicKey 2371 @NonNull 2372 public static final Key<Integer> EDGE_MODE = 2373 new Key<Integer>("android.edge.mode", int.class); 2374 2375 /** 2376 * <p>The desired mode for for the camera device's flash control.</p> 2377 * <p>This control is only effective when flash unit is available 2378 * (<code>{@link CameraCharacteristics#FLASH_INFO_AVAILABLE android.flash.info.available} == true</code>).</p> 2379 * <p>When this control is used, the {@link CaptureRequest#CONTROL_AE_MODE android.control.aeMode} must be set to ON or OFF. 2380 * Otherwise, the camera device auto-exposure related flash control (ON_AUTO_FLASH, 2381 * ON_ALWAYS_FLASH, or ON_AUTO_FLASH_REDEYE) will override this control.</p> 2382 * <p>When set to OFF, the camera device will not fire flash for this capture.</p> 2383 * <p>When set to SINGLE, the camera device will fire flash regardless of the camera 2384 * device's auto-exposure routine's result. When used in still capture case, this 2385 * control should be used along with auto-exposure (AE) precapture metering sequence 2386 * ({@link CaptureRequest#CONTROL_AE_PRECAPTURE_TRIGGER android.control.aePrecaptureTrigger}), otherwise, the image may be incorrectly exposed.</p> 2387 * <p>When set to TORCH, the flash will be on continuously. This mode can be used 2388 * for use cases such as preview, auto-focus assist, still capture, or video recording.</p> 2389 * <p>The flash status will be reported by {@link CaptureResult#FLASH_STATE android.flash.state} in the capture result metadata.</p> 2390 * <p><b>Possible values:</b> 2391 * <ul> 2392 * <li>{@link #FLASH_MODE_OFF OFF}</li> 2393 * <li>{@link #FLASH_MODE_SINGLE SINGLE}</li> 2394 * <li>{@link #FLASH_MODE_TORCH TORCH}</li> 2395 * </ul></p> 2396 * <p>This key is available on all devices.</p> 2397 * 2398 * @see CaptureRequest#CONTROL_AE_MODE 2399 * @see CaptureRequest#CONTROL_AE_PRECAPTURE_TRIGGER 2400 * @see CameraCharacteristics#FLASH_INFO_AVAILABLE 2401 * @see CaptureResult#FLASH_STATE 2402 * @see #FLASH_MODE_OFF 2403 * @see #FLASH_MODE_SINGLE 2404 * @see #FLASH_MODE_TORCH 2405 */ 2406 @PublicKey 2407 @NonNull 2408 public static final Key<Integer> FLASH_MODE = 2409 new Key<Integer>("android.flash.mode", int.class); 2410 2411 /** 2412 * <p>Current state of the flash 2413 * unit.</p> 2414 * <p>When the camera device doesn't have flash unit 2415 * (i.e. <code>{@link CameraCharacteristics#FLASH_INFO_AVAILABLE android.flash.info.available} == false</code>), this state will always be UNAVAILABLE. 2416 * Other states indicate the current flash status.</p> 2417 * <p>In certain conditions, this will be available on LEGACY devices:</p> 2418 * <ul> 2419 * <li>Flash-less cameras always return UNAVAILABLE.</li> 2420 * <li>Using {@link CaptureRequest#CONTROL_AE_MODE android.control.aeMode} <code>==</code> ON_ALWAYS_FLASH 2421 * will always return FIRED.</li> 2422 * <li>Using {@link CaptureRequest#FLASH_MODE android.flash.mode} <code>==</code> TORCH 2423 * will always return FIRED.</li> 2424 * </ul> 2425 * <p>In all other conditions the state will not be available on 2426 * LEGACY devices (i.e. it will be <code>null</code>).</p> 2427 * <p><b>Possible values:</b> 2428 * <ul> 2429 * <li>{@link #FLASH_STATE_UNAVAILABLE UNAVAILABLE}</li> 2430 * <li>{@link #FLASH_STATE_CHARGING CHARGING}</li> 2431 * <li>{@link #FLASH_STATE_READY READY}</li> 2432 * <li>{@link #FLASH_STATE_FIRED FIRED}</li> 2433 * <li>{@link #FLASH_STATE_PARTIAL PARTIAL}</li> 2434 * </ul></p> 2435 * <p><b>Optional</b> - The value for this key may be {@code null} on some devices.</p> 2436 * <p><b>Limited capability</b> - 2437 * Present on all camera devices that report being at least {@link CameraCharacteristics#INFO_SUPPORTED_HARDWARE_LEVEL_LIMITED HARDWARE_LEVEL_LIMITED} devices in the 2438 * {@link CameraCharacteristics#INFO_SUPPORTED_HARDWARE_LEVEL android.info.supportedHardwareLevel} key</p> 2439 * 2440 * @see CaptureRequest#CONTROL_AE_MODE 2441 * @see CameraCharacteristics#FLASH_INFO_AVAILABLE 2442 * @see CaptureRequest#FLASH_MODE 2443 * @see CameraCharacteristics#INFO_SUPPORTED_HARDWARE_LEVEL 2444 * @see #FLASH_STATE_UNAVAILABLE 2445 * @see #FLASH_STATE_CHARGING 2446 * @see #FLASH_STATE_READY 2447 * @see #FLASH_STATE_FIRED 2448 * @see #FLASH_STATE_PARTIAL 2449 */ 2450 @PublicKey 2451 @NonNull 2452 public static final Key<Integer> FLASH_STATE = 2453 new Key<Integer>("android.flash.state", int.class); 2454 2455 /** 2456 * <p>Operational mode for hot pixel correction.</p> 2457 * <p>Hotpixel correction interpolates out, or otherwise removes, pixels 2458 * that do not accurately measure the incoming light (i.e. pixels that 2459 * are stuck at an arbitrary value or are oversensitive).</p> 2460 * <p><b>Possible values:</b> 2461 * <ul> 2462 * <li>{@link #HOT_PIXEL_MODE_OFF OFF}</li> 2463 * <li>{@link #HOT_PIXEL_MODE_FAST FAST}</li> 2464 * <li>{@link #HOT_PIXEL_MODE_HIGH_QUALITY HIGH_QUALITY}</li> 2465 * </ul></p> 2466 * <p><b>Available values for this device:</b><br> 2467 * {@link CameraCharacteristics#HOT_PIXEL_AVAILABLE_HOT_PIXEL_MODES android.hotPixel.availableHotPixelModes}</p> 2468 * <p><b>Optional</b> - The value for this key may be {@code null} on some devices.</p> 2469 * 2470 * @see CameraCharacteristics#HOT_PIXEL_AVAILABLE_HOT_PIXEL_MODES 2471 * @see #HOT_PIXEL_MODE_OFF 2472 * @see #HOT_PIXEL_MODE_FAST 2473 * @see #HOT_PIXEL_MODE_HIGH_QUALITY 2474 */ 2475 @PublicKey 2476 @NonNull 2477 public static final Key<Integer> HOT_PIXEL_MODE = 2478 new Key<Integer>("android.hotPixel.mode", int.class); 2479 2480 /** 2481 * <p>A location object to use when generating image GPS metadata.</p> 2482 * <p>Setting a location object in a request will include the GPS coordinates of the location 2483 * into any JPEG images captured based on the request. These coordinates can then be 2484 * viewed by anyone who receives the JPEG image.</p> 2485 * <p>This tag is also used for HEIC image capture.</p> 2486 * <p>This key is available on all devices.</p> 2487 */ 2488 @PublicKey 2489 @NonNull 2490 @SyntheticKey 2491 public static final Key<android.location.Location> JPEG_GPS_LOCATION = 2492 new Key<android.location.Location>("android.jpeg.gpsLocation", android.location.Location.class); 2493 2494 /** 2495 * <p>GPS coordinates to include in output JPEG 2496 * EXIF.</p> 2497 * <p>This tag is also used for HEIC image capture.</p> 2498 * <p><b>Range of valid values:</b><br> 2499 * (-180 - 180], [-90,90], [-inf, inf]</p> 2500 * <p>This key is available on all devices.</p> 2501 * @hide 2502 */ 2503 public static final Key<double[]> JPEG_GPS_COORDINATES = 2504 new Key<double[]>("android.jpeg.gpsCoordinates", double[].class); 2505 2506 /** 2507 * <p>32 characters describing GPS algorithm to 2508 * include in EXIF.</p> 2509 * <p>This tag is also used for HEIC image capture.</p> 2510 * <p>This key is available on all devices.</p> 2511 * @hide 2512 */ 2513 public static final Key<String> JPEG_GPS_PROCESSING_METHOD = 2514 new Key<String>("android.jpeg.gpsProcessingMethod", String.class); 2515 2516 /** 2517 * <p>Time GPS fix was made to include in 2518 * EXIF.</p> 2519 * <p>This tag is also used for HEIC image capture.</p> 2520 * <p><b>Units</b>: UTC in seconds since January 1, 1970</p> 2521 * <p>This key is available on all devices.</p> 2522 * @hide 2523 */ 2524 public static final Key<Long> JPEG_GPS_TIMESTAMP = 2525 new Key<Long>("android.jpeg.gpsTimestamp", long.class); 2526 2527 /** 2528 * <p>The orientation for a JPEG image.</p> 2529 * <p>The clockwise rotation angle in degrees, relative to the orientation 2530 * to the camera, that the JPEG picture needs to be rotated by, to be viewed 2531 * upright.</p> 2532 * <p>Camera devices may either encode this value into the JPEG EXIF header, or 2533 * rotate the image data to match this orientation. When the image data is rotated, 2534 * the thumbnail data will also be rotated.</p> 2535 * <p>Note that this orientation is relative to the orientation of the camera sensor, given 2536 * by {@link CameraCharacteristics#SENSOR_ORIENTATION android.sensor.orientation}.</p> 2537 * <p>To translate from the device orientation given by the Android sensor APIs for camera 2538 * sensors which are not EXTERNAL, the following sample code may be used:</p> 2539 * <pre><code>private int getJpegOrientation(CameraCharacteristics c, int deviceOrientation) { 2540 * if (deviceOrientation == android.view.OrientationEventListener.ORIENTATION_UNKNOWN) return 0; 2541 * int sensorOrientation = c.get(CameraCharacteristics.SENSOR_ORIENTATION); 2542 * 2543 * // Round device orientation to a multiple of 90 2544 * deviceOrientation = (deviceOrientation + 45) / 90 * 90; 2545 * 2546 * // Reverse device orientation for front-facing cameras 2547 * boolean facingFront = c.get(CameraCharacteristics.LENS_FACING) == CameraCharacteristics.LENS_FACING_FRONT; 2548 * if (facingFront) deviceOrientation = -deviceOrientation; 2549 * 2550 * // Calculate desired JPEG orientation relative to camera orientation to make 2551 * // the image upright relative to the device orientation 2552 * int jpegOrientation = (sensorOrientation + deviceOrientation + 360) % 360; 2553 * 2554 * return jpegOrientation; 2555 * } 2556 * </code></pre> 2557 * <p>For EXTERNAL cameras the sensor orientation will always be set to 0 and the facing will 2558 * also be set to EXTERNAL. The above code is not relevant in such case.</p> 2559 * <p>This tag is also used to describe the orientation of the HEIC image capture, in which 2560 * case the rotation is reflected by 2561 * {@link android.media.ExifInterface#TAG_ORIENTATION EXIF orientation flag}, and not by 2562 * rotating the image data itself.</p> 2563 * <p><b>Units</b>: Degrees in multiples of 90</p> 2564 * <p><b>Range of valid values:</b><br> 2565 * 0, 90, 180, 270</p> 2566 * <p>This key is available on all devices.</p> 2567 * 2568 * @see CameraCharacteristics#SENSOR_ORIENTATION 2569 */ 2570 @PublicKey 2571 @NonNull 2572 public static final Key<Integer> JPEG_ORIENTATION = 2573 new Key<Integer>("android.jpeg.orientation", int.class); 2574 2575 /** 2576 * <p>Compression quality of the final JPEG 2577 * image.</p> 2578 * <p>85-95 is typical usage range. This tag is also used to describe the quality 2579 * of the HEIC image capture.</p> 2580 * <p><b>Range of valid values:</b><br> 2581 * 1-100; larger is higher quality</p> 2582 * <p>This key is available on all devices.</p> 2583 */ 2584 @PublicKey 2585 @NonNull 2586 public static final Key<Byte> JPEG_QUALITY = 2587 new Key<Byte>("android.jpeg.quality", byte.class); 2588 2589 /** 2590 * <p>Compression quality of JPEG 2591 * thumbnail.</p> 2592 * <p>This tag is also used to describe the quality of the HEIC image capture.</p> 2593 * <p><b>Range of valid values:</b><br> 2594 * 1-100; larger is higher quality</p> 2595 * <p>This key is available on all devices.</p> 2596 */ 2597 @PublicKey 2598 @NonNull 2599 public static final Key<Byte> JPEG_THUMBNAIL_QUALITY = 2600 new Key<Byte>("android.jpeg.thumbnailQuality", byte.class); 2601 2602 /** 2603 * <p>Resolution of embedded JPEG thumbnail.</p> 2604 * <p>When set to (0, 0) value, the JPEG EXIF will not contain thumbnail, 2605 * but the captured JPEG will still be a valid image.</p> 2606 * <p>For best results, when issuing a request for a JPEG image, the thumbnail size selected 2607 * should have the same aspect ratio as the main JPEG output.</p> 2608 * <p>If the thumbnail image aspect ratio differs from the JPEG primary image aspect 2609 * ratio, the camera device creates the thumbnail by cropping it from the primary image. 2610 * For example, if the primary image has 4:3 aspect ratio, the thumbnail image has 2611 * 16:9 aspect ratio, the primary image will be cropped vertically (letterbox) to 2612 * generate the thumbnail image. The thumbnail image will always have a smaller Field 2613 * Of View (FOV) than the primary image when aspect ratios differ.</p> 2614 * <p>When an {@link CaptureRequest#JPEG_ORIENTATION android.jpeg.orientation} of non-zero degree is requested, 2615 * the camera device will handle thumbnail rotation in one of the following ways:</p> 2616 * <ul> 2617 * <li>Set the {@link android.media.ExifInterface#TAG_ORIENTATION EXIF orientation flag} 2618 * and keep jpeg and thumbnail image data unrotated.</li> 2619 * <li>Rotate the jpeg and thumbnail image data and not set 2620 * {@link android.media.ExifInterface#TAG_ORIENTATION EXIF orientation flag}. In this 2621 * case, LIMITED or FULL hardware level devices will report rotated thumnail size in 2622 * capture result, so the width and height will be interchanged if 90 or 270 degree 2623 * orientation is requested. LEGACY device will always report unrotated thumbnail 2624 * size.</li> 2625 * </ul> 2626 * <p>The tag is also used as thumbnail size for HEIC image format capture, in which case the 2627 * the thumbnail rotation is reflected by 2628 * {@link android.media.ExifInterface#TAG_ORIENTATION EXIF orientation flag}, and not by 2629 * rotating the thumbnail data itself.</p> 2630 * <p><b>Range of valid values:</b><br> 2631 * {@link CameraCharacteristics#JPEG_AVAILABLE_THUMBNAIL_SIZES android.jpeg.availableThumbnailSizes}</p> 2632 * <p>This key is available on all devices.</p> 2633 * 2634 * @see CameraCharacteristics#JPEG_AVAILABLE_THUMBNAIL_SIZES 2635 * @see CaptureRequest#JPEG_ORIENTATION 2636 */ 2637 @PublicKey 2638 @NonNull 2639 public static final Key<android.util.Size> JPEG_THUMBNAIL_SIZE = 2640 new Key<android.util.Size>("android.jpeg.thumbnailSize", android.util.Size.class); 2641 2642 /** 2643 * <p>The desired lens aperture size, as a ratio of lens focal length to the 2644 * effective aperture diameter.</p> 2645 * <p>Setting this value is only supported on the camera devices that have a variable 2646 * aperture lens.</p> 2647 * <p>When this is supported and {@link CaptureRequest#CONTROL_AE_MODE android.control.aeMode} is OFF, 2648 * this can be set along with {@link CaptureRequest#SENSOR_EXPOSURE_TIME android.sensor.exposureTime}, 2649 * {@link CaptureRequest#SENSOR_SENSITIVITY android.sensor.sensitivity}, and {@link CaptureRequest#SENSOR_FRAME_DURATION android.sensor.frameDuration} 2650 * to achieve manual exposure control.</p> 2651 * <p>The requested aperture value may take several frames to reach the 2652 * requested value; the camera device will report the current (intermediate) 2653 * aperture size in capture result metadata while the aperture is changing. 2654 * While the aperture is still changing, {@link CaptureResult#LENS_STATE android.lens.state} will be set to MOVING.</p> 2655 * <p>When this is supported and {@link CaptureRequest#CONTROL_AE_MODE android.control.aeMode} is one of 2656 * the ON modes, this will be overridden by the camera device 2657 * auto-exposure algorithm, the overridden values are then provided 2658 * back to the user in the corresponding result.</p> 2659 * <p><b>Units</b>: The f-number (f/N)</p> 2660 * <p><b>Range of valid values:</b><br> 2661 * {@link CameraCharacteristics#LENS_INFO_AVAILABLE_APERTURES android.lens.info.availableApertures}</p> 2662 * <p><b>Optional</b> - The value for this key may be {@code null} on some devices.</p> 2663 * <p><b>Full capability</b> - 2664 * Present on all camera devices that report being {@link CameraCharacteristics#INFO_SUPPORTED_HARDWARE_LEVEL_FULL HARDWARE_LEVEL_FULL} devices in the 2665 * {@link CameraCharacteristics#INFO_SUPPORTED_HARDWARE_LEVEL android.info.supportedHardwareLevel} key</p> 2666 * 2667 * @see CaptureRequest#CONTROL_AE_MODE 2668 * @see CameraCharacteristics#INFO_SUPPORTED_HARDWARE_LEVEL 2669 * @see CameraCharacteristics#LENS_INFO_AVAILABLE_APERTURES 2670 * @see CaptureResult#LENS_STATE 2671 * @see CaptureRequest#SENSOR_EXPOSURE_TIME 2672 * @see CaptureRequest#SENSOR_FRAME_DURATION 2673 * @see CaptureRequest#SENSOR_SENSITIVITY 2674 */ 2675 @PublicKey 2676 @NonNull 2677 public static final Key<Float> LENS_APERTURE = 2678 new Key<Float>("android.lens.aperture", float.class); 2679 2680 /** 2681 * <p>The desired setting for the lens neutral density filter(s).</p> 2682 * <p>This control will not be supported on most camera devices.</p> 2683 * <p>Lens filters are typically used to lower the amount of light the 2684 * sensor is exposed to (measured in steps of EV). As used here, an EV 2685 * step is the standard logarithmic representation, which are 2686 * non-negative, and inversely proportional to the amount of light 2687 * hitting the sensor. For example, setting this to 0 would result 2688 * in no reduction of the incoming light, and setting this to 2 would 2689 * mean that the filter is set to reduce incoming light by two stops 2690 * (allowing 1/4 of the prior amount of light to the sensor).</p> 2691 * <p>It may take several frames before the lens filter density changes 2692 * to the requested value. While the filter density is still changing, 2693 * {@link CaptureResult#LENS_STATE android.lens.state} will be set to MOVING.</p> 2694 * <p><b>Units</b>: Exposure Value (EV)</p> 2695 * <p><b>Range of valid values:</b><br> 2696 * {@link CameraCharacteristics#LENS_INFO_AVAILABLE_FILTER_DENSITIES android.lens.info.availableFilterDensities}</p> 2697 * <p><b>Optional</b> - The value for this key may be {@code null} on some devices.</p> 2698 * <p><b>Full capability</b> - 2699 * Present on all camera devices that report being {@link CameraCharacteristics#INFO_SUPPORTED_HARDWARE_LEVEL_FULL HARDWARE_LEVEL_FULL} devices in the 2700 * {@link CameraCharacteristics#INFO_SUPPORTED_HARDWARE_LEVEL android.info.supportedHardwareLevel} key</p> 2701 * 2702 * @see CameraCharacteristics#INFO_SUPPORTED_HARDWARE_LEVEL 2703 * @see CameraCharacteristics#LENS_INFO_AVAILABLE_FILTER_DENSITIES 2704 * @see CaptureResult#LENS_STATE 2705 */ 2706 @PublicKey 2707 @NonNull 2708 public static final Key<Float> LENS_FILTER_DENSITY = 2709 new Key<Float>("android.lens.filterDensity", float.class); 2710 2711 /** 2712 * <p>The desired lens focal length; used for optical zoom.</p> 2713 * <p>This setting controls the physical focal length of the camera 2714 * device's lens. Changing the focal length changes the field of 2715 * view of the camera device, and is usually used for optical zoom.</p> 2716 * <p>Like {@link CaptureRequest#LENS_FOCUS_DISTANCE android.lens.focusDistance} and {@link CaptureRequest#LENS_APERTURE android.lens.aperture}, this 2717 * setting won't be applied instantaneously, and it may take several 2718 * frames before the lens can change to the requested focal length. 2719 * While the focal length is still changing, {@link CaptureResult#LENS_STATE android.lens.state} will 2720 * be set to MOVING.</p> 2721 * <p>Optical zoom will not be supported on most devices.</p> 2722 * <p><b>Units</b>: Millimeters</p> 2723 * <p><b>Range of valid values:</b><br> 2724 * {@link CameraCharacteristics#LENS_INFO_AVAILABLE_FOCAL_LENGTHS android.lens.info.availableFocalLengths}</p> 2725 * <p>This key is available on all devices.</p> 2726 * 2727 * @see CaptureRequest#LENS_APERTURE 2728 * @see CaptureRequest#LENS_FOCUS_DISTANCE 2729 * @see CameraCharacteristics#LENS_INFO_AVAILABLE_FOCAL_LENGTHS 2730 * @see CaptureResult#LENS_STATE 2731 */ 2732 @PublicKey 2733 @NonNull 2734 public static final Key<Float> LENS_FOCAL_LENGTH = 2735 new Key<Float>("android.lens.focalLength", float.class); 2736 2737 /** 2738 * <p>Desired distance to plane of sharpest focus, 2739 * measured from frontmost surface of the lens.</p> 2740 * <p>Should be zero for fixed-focus cameras</p> 2741 * <p><b>Units</b>: See {@link CameraCharacteristics#LENS_INFO_FOCUS_DISTANCE_CALIBRATION android.lens.info.focusDistanceCalibration} for details</p> 2742 * <p><b>Range of valid values:</b><br> 2743 * >= 0</p> 2744 * <p><b>Optional</b> - The value for this key may be {@code null} on some devices.</p> 2745 * <p><b>Full capability</b> - 2746 * Present on all camera devices that report being {@link CameraCharacteristics#INFO_SUPPORTED_HARDWARE_LEVEL_FULL HARDWARE_LEVEL_FULL} devices in the 2747 * {@link CameraCharacteristics#INFO_SUPPORTED_HARDWARE_LEVEL android.info.supportedHardwareLevel} key</p> 2748 * 2749 * @see CameraCharacteristics#INFO_SUPPORTED_HARDWARE_LEVEL 2750 * @see CameraCharacteristics#LENS_INFO_FOCUS_DISTANCE_CALIBRATION 2751 */ 2752 @PublicKey 2753 @NonNull 2754 public static final Key<Float> LENS_FOCUS_DISTANCE = 2755 new Key<Float>("android.lens.focusDistance", float.class); 2756 2757 /** 2758 * <p>The range of scene distances that are in 2759 * sharp focus (depth of field).</p> 2760 * <p>If variable focus not supported, can still report 2761 * fixed depth of field range</p> 2762 * <p><b>Units</b>: A pair of focus distances in diopters: (near, 2763 * far); see {@link CameraCharacteristics#LENS_INFO_FOCUS_DISTANCE_CALIBRATION android.lens.info.focusDistanceCalibration} for details.</p> 2764 * <p><b>Range of valid values:</b><br> 2765 * >=0</p> 2766 * <p><b>Optional</b> - The value for this key may be {@code null} on some devices.</p> 2767 * <p><b>Limited capability</b> - 2768 * Present on all camera devices that report being at least {@link CameraCharacteristics#INFO_SUPPORTED_HARDWARE_LEVEL_LIMITED HARDWARE_LEVEL_LIMITED} devices in the 2769 * {@link CameraCharacteristics#INFO_SUPPORTED_HARDWARE_LEVEL android.info.supportedHardwareLevel} key</p> 2770 * 2771 * @see CameraCharacteristics#INFO_SUPPORTED_HARDWARE_LEVEL 2772 * @see CameraCharacteristics#LENS_INFO_FOCUS_DISTANCE_CALIBRATION 2773 */ 2774 @PublicKey 2775 @NonNull 2776 public static final Key<android.util.Pair<Float,Float>> LENS_FOCUS_RANGE = 2777 new Key<android.util.Pair<Float,Float>>("android.lens.focusRange", new TypeReference<android.util.Pair<Float,Float>>() {{ }}); 2778 2779 /** 2780 * <p>Sets whether the camera device uses optical image stabilization (OIS) 2781 * when capturing images.</p> 2782 * <p>OIS is used to compensate for motion blur due to small 2783 * movements of the camera during capture. Unlike digital image 2784 * stabilization ({@link CaptureRequest#CONTROL_VIDEO_STABILIZATION_MODE android.control.videoStabilizationMode}), OIS 2785 * makes use of mechanical elements to stabilize the camera 2786 * sensor, and thus allows for longer exposure times before 2787 * camera shake becomes apparent.</p> 2788 * <p>Switching between different optical stabilization modes may take several 2789 * frames to initialize, the camera device will report the current mode in 2790 * capture result metadata. For example, When "ON" mode is requested, the 2791 * optical stabilization modes in the first several capture results may still 2792 * be "OFF", and it will become "ON" when the initialization is done.</p> 2793 * <p>If a camera device supports both OIS and digital image stabilization 2794 * ({@link CaptureRequest#CONTROL_VIDEO_STABILIZATION_MODE android.control.videoStabilizationMode}), turning both modes on may produce undesirable 2795 * interaction, so it is recommended not to enable both at the same time.</p> 2796 * <p>Not all devices will support OIS; see 2797 * {@link CameraCharacteristics#LENS_INFO_AVAILABLE_OPTICAL_STABILIZATION android.lens.info.availableOpticalStabilization} for 2798 * available controls.</p> 2799 * <p><b>Possible values:</b> 2800 * <ul> 2801 * <li>{@link #LENS_OPTICAL_STABILIZATION_MODE_OFF OFF}</li> 2802 * <li>{@link #LENS_OPTICAL_STABILIZATION_MODE_ON ON}</li> 2803 * </ul></p> 2804 * <p><b>Available values for this device:</b><br> 2805 * {@link CameraCharacteristics#LENS_INFO_AVAILABLE_OPTICAL_STABILIZATION android.lens.info.availableOpticalStabilization}</p> 2806 * <p><b>Optional</b> - The value for this key may be {@code null} on some devices.</p> 2807 * <p><b>Limited capability</b> - 2808 * Present on all camera devices that report being at least {@link CameraCharacteristics#INFO_SUPPORTED_HARDWARE_LEVEL_LIMITED HARDWARE_LEVEL_LIMITED} devices in the 2809 * {@link CameraCharacteristics#INFO_SUPPORTED_HARDWARE_LEVEL android.info.supportedHardwareLevel} key</p> 2810 * 2811 * @see CaptureRequest#CONTROL_VIDEO_STABILIZATION_MODE 2812 * @see CameraCharacteristics#INFO_SUPPORTED_HARDWARE_LEVEL 2813 * @see CameraCharacteristics#LENS_INFO_AVAILABLE_OPTICAL_STABILIZATION 2814 * @see #LENS_OPTICAL_STABILIZATION_MODE_OFF 2815 * @see #LENS_OPTICAL_STABILIZATION_MODE_ON 2816 */ 2817 @PublicKey 2818 @NonNull 2819 public static final Key<Integer> LENS_OPTICAL_STABILIZATION_MODE = 2820 new Key<Integer>("android.lens.opticalStabilizationMode", int.class); 2821 2822 /** 2823 * <p>Current lens status.</p> 2824 * <p>For lens parameters {@link CaptureRequest#LENS_FOCAL_LENGTH android.lens.focalLength}, {@link CaptureRequest#LENS_FOCUS_DISTANCE android.lens.focusDistance}, 2825 * {@link CaptureRequest#LENS_FILTER_DENSITY android.lens.filterDensity} and {@link CaptureRequest#LENS_APERTURE android.lens.aperture}, when changes are requested, 2826 * they may take several frames to reach the requested values. This state indicates 2827 * the current status of the lens parameters.</p> 2828 * <p>When the state is STATIONARY, the lens parameters are not changing. This could be 2829 * either because the parameters are all fixed, or because the lens has had enough 2830 * time to reach the most recently-requested values. 2831 * If all these lens parameters are not changable for a camera device, as listed below:</p> 2832 * <ul> 2833 * <li>Fixed focus (<code>{@link CameraCharacteristics#LENS_INFO_MINIMUM_FOCUS_DISTANCE android.lens.info.minimumFocusDistance} == 0</code>), which means 2834 * {@link CaptureRequest#LENS_FOCUS_DISTANCE android.lens.focusDistance} parameter will always be 0.</li> 2835 * <li>Fixed focal length ({@link CameraCharacteristics#LENS_INFO_AVAILABLE_FOCAL_LENGTHS android.lens.info.availableFocalLengths} contains single value), 2836 * which means the optical zoom is not supported.</li> 2837 * <li>No ND filter ({@link CameraCharacteristics#LENS_INFO_AVAILABLE_FILTER_DENSITIES android.lens.info.availableFilterDensities} contains only 0).</li> 2838 * <li>Fixed aperture ({@link CameraCharacteristics#LENS_INFO_AVAILABLE_APERTURES android.lens.info.availableApertures} contains single value).</li> 2839 * </ul> 2840 * <p>Then this state will always be STATIONARY.</p> 2841 * <p>When the state is MOVING, it indicates that at least one of the lens parameters 2842 * is changing.</p> 2843 * <p><b>Possible values:</b> 2844 * <ul> 2845 * <li>{@link #LENS_STATE_STATIONARY STATIONARY}</li> 2846 * <li>{@link #LENS_STATE_MOVING MOVING}</li> 2847 * </ul></p> 2848 * <p><b>Optional</b> - The value for this key may be {@code null} on some devices.</p> 2849 * <p><b>Limited capability</b> - 2850 * Present on all camera devices that report being at least {@link CameraCharacteristics#INFO_SUPPORTED_HARDWARE_LEVEL_LIMITED HARDWARE_LEVEL_LIMITED} devices in the 2851 * {@link CameraCharacteristics#INFO_SUPPORTED_HARDWARE_LEVEL android.info.supportedHardwareLevel} key</p> 2852 * 2853 * @see CameraCharacteristics#INFO_SUPPORTED_HARDWARE_LEVEL 2854 * @see CaptureRequest#LENS_APERTURE 2855 * @see CaptureRequest#LENS_FILTER_DENSITY 2856 * @see CaptureRequest#LENS_FOCAL_LENGTH 2857 * @see CaptureRequest#LENS_FOCUS_DISTANCE 2858 * @see CameraCharacteristics#LENS_INFO_AVAILABLE_APERTURES 2859 * @see CameraCharacteristics#LENS_INFO_AVAILABLE_FILTER_DENSITIES 2860 * @see CameraCharacteristics#LENS_INFO_AVAILABLE_FOCAL_LENGTHS 2861 * @see CameraCharacteristics#LENS_INFO_MINIMUM_FOCUS_DISTANCE 2862 * @see #LENS_STATE_STATIONARY 2863 * @see #LENS_STATE_MOVING 2864 */ 2865 @PublicKey 2866 @NonNull 2867 public static final Key<Integer> LENS_STATE = 2868 new Key<Integer>("android.lens.state", int.class); 2869 2870 /** 2871 * <p>The orientation of the camera relative to the sensor 2872 * coordinate system.</p> 2873 * <p>The four coefficients that describe the quaternion 2874 * rotation from the Android sensor coordinate system to a 2875 * camera-aligned coordinate system where the X-axis is 2876 * aligned with the long side of the image sensor, the Y-axis 2877 * is aligned with the short side of the image sensor, and 2878 * the Z-axis is aligned with the optical axis of the sensor.</p> 2879 * <p>To convert from the quaternion coefficients <code>(x,y,z,w)</code> 2880 * to the axis of rotation <code>(a_x, a_y, a_z)</code> and rotation 2881 * amount <code>theta</code>, the following formulas can be used:</p> 2882 * <pre><code> theta = 2 * acos(w) 2883 * a_x = x / sin(theta/2) 2884 * a_y = y / sin(theta/2) 2885 * a_z = z / sin(theta/2) 2886 * </code></pre> 2887 * <p>To create a 3x3 rotation matrix that applies the rotation 2888 * defined by this quaternion, the following matrix can be 2889 * used:</p> 2890 * <pre><code>R = [ 1 - 2y^2 - 2z^2, 2xy - 2zw, 2xz + 2yw, 2891 * 2xy + 2zw, 1 - 2x^2 - 2z^2, 2yz - 2xw, 2892 * 2xz - 2yw, 2yz + 2xw, 1 - 2x^2 - 2y^2 ] 2893 * </code></pre> 2894 * <p>This matrix can then be used to apply the rotation to a 2895 * column vector point with</p> 2896 * <p><code>p' = Rp</code></p> 2897 * <p>where <code>p</code> is in the device sensor coordinate system, and 2898 * <code>p'</code> is in the camera-oriented coordinate system.</p> 2899 * <p><b>Units</b>: 2900 * Quaternion coefficients</p> 2901 * <p><b>Optional</b> - The value for this key may be {@code null} on some devices.</p> 2902 * <p><b>Permission {@link android.Manifest.permission#CAMERA } is needed to access this property</b></p> 2903 */ 2904 @PublicKey 2905 @NonNull 2906 public static final Key<float[]> LENS_POSE_ROTATION = 2907 new Key<float[]>("android.lens.poseRotation", float[].class); 2908 2909 /** 2910 * <p>Position of the camera optical center.</p> 2911 * <p>The position of the camera device's lens optical center, 2912 * as a three-dimensional vector <code>(x,y,z)</code>.</p> 2913 * <p>Prior to Android P, or when {@link CameraCharacteristics#LENS_POSE_REFERENCE android.lens.poseReference} is PRIMARY_CAMERA, this position 2914 * is relative to the optical center of the largest camera device facing in the same 2915 * direction as this camera, in the {@link android.hardware.SensorEvent Android sensor 2916 * coordinate axes}. Note that only the axis definitions are shared with the sensor 2917 * coordinate system, but not the origin.</p> 2918 * <p>If this device is the largest or only camera device with a given facing, then this 2919 * position will be <code>(0, 0, 0)</code>; a camera device with a lens optical center located 3 cm 2920 * from the main sensor along the +X axis (to the right from the user's perspective) will 2921 * report <code>(0.03, 0, 0)</code>. Note that this means that, for many computer vision 2922 * applications, the position needs to be negated to convert it to a translation from the 2923 * camera to the origin.</p> 2924 * <p>To transform a pixel coordinates between two cameras facing the same direction, first 2925 * the source camera {@link CameraCharacteristics#LENS_DISTORTION android.lens.distortion} must be corrected for. Then the source 2926 * camera {@link CameraCharacteristics#LENS_INTRINSIC_CALIBRATION android.lens.intrinsicCalibration} needs to be applied, followed by the 2927 * {@link CameraCharacteristics#LENS_POSE_ROTATION android.lens.poseRotation} of the source camera, the translation of the source camera 2928 * relative to the destination camera, the {@link CameraCharacteristics#LENS_POSE_ROTATION android.lens.poseRotation} of the destination 2929 * camera, and finally the inverse of {@link CameraCharacteristics#LENS_INTRINSIC_CALIBRATION android.lens.intrinsicCalibration} of the destination 2930 * camera. This obtains a radial-distortion-free coordinate in the destination camera pixel 2931 * coordinates.</p> 2932 * <p>To compare this against a real image from the destination camera, the destination camera 2933 * image then needs to be corrected for radial distortion before comparison or sampling.</p> 2934 * <p>When {@link CameraCharacteristics#LENS_POSE_REFERENCE android.lens.poseReference} is GYROSCOPE, then this position is relative to 2935 * the center of the primary gyroscope on the device. The axis definitions are the same as 2936 * with PRIMARY_CAMERA.</p> 2937 * <p><b>Units</b>: Meters</p> 2938 * <p><b>Optional</b> - The value for this key may be {@code null} on some devices.</p> 2939 * <p><b>Permission {@link android.Manifest.permission#CAMERA } is needed to access this property</b></p> 2940 * 2941 * @see CameraCharacteristics#LENS_DISTORTION 2942 * @see CameraCharacteristics#LENS_INTRINSIC_CALIBRATION 2943 * @see CameraCharacteristics#LENS_POSE_REFERENCE 2944 * @see CameraCharacteristics#LENS_POSE_ROTATION 2945 */ 2946 @PublicKey 2947 @NonNull 2948 public static final Key<float[]> LENS_POSE_TRANSLATION = 2949 new Key<float[]>("android.lens.poseTranslation", float[].class); 2950 2951 /** 2952 * <p>The parameters for this camera device's intrinsic 2953 * calibration.</p> 2954 * <p>The five calibration parameters that describe the 2955 * transform from camera-centric 3D coordinates to sensor 2956 * pixel coordinates:</p> 2957 * <pre><code>[f_x, f_y, c_x, c_y, s] 2958 * </code></pre> 2959 * <p>Where <code>f_x</code> and <code>f_y</code> are the horizontal and vertical 2960 * focal lengths, <code>[c_x, c_y]</code> is the position of the optical 2961 * axis, and <code>s</code> is a skew parameter for the sensor plane not 2962 * being aligned with the lens plane.</p> 2963 * <p>These are typically used within a transformation matrix K:</p> 2964 * <pre><code>K = [ f_x, s, c_x, 2965 * 0, f_y, c_y, 2966 * 0 0, 1 ] 2967 * </code></pre> 2968 * <p>which can then be combined with the camera pose rotation 2969 * <code>R</code> and translation <code>t</code> ({@link CameraCharacteristics#LENS_POSE_ROTATION android.lens.poseRotation} and 2970 * {@link CameraCharacteristics#LENS_POSE_TRANSLATION android.lens.poseTranslation}, respectively) to calculate the 2971 * complete transform from world coordinates to pixel 2972 * coordinates:</p> 2973 * <pre><code>P = [ K 0 * [ R -Rt 2974 * 0 1 ] 0 1 ] 2975 * </code></pre> 2976 * <p>(Note the negation of poseTranslation when mapping from camera 2977 * to world coordinates, and multiplication by the rotation).</p> 2978 * <p>With <code>p_w</code> being a point in the world coordinate system 2979 * and <code>p_s</code> being a point in the camera active pixel array 2980 * coordinate system, and with the mapping including the 2981 * homogeneous division by z:</p> 2982 * <pre><code> p_h = (x_h, y_h, z_h) = P p_w 2983 * p_s = p_h / z_h 2984 * </code></pre> 2985 * <p>so <code>[x_s, y_s]</code> is the pixel coordinates of the world 2986 * point, <code>z_s = 1</code>, and <code>w_s</code> is a measurement of disparity 2987 * (depth) in pixel coordinates.</p> 2988 * <p>Note that the coordinate system for this transform is the 2989 * {@link CameraCharacteristics#SENSOR_INFO_PRE_CORRECTION_ACTIVE_ARRAY_SIZE android.sensor.info.preCorrectionActiveArraySize} system, 2990 * where <code>(0,0)</code> is the top-left of the 2991 * preCorrectionActiveArraySize rectangle. Once the pose and 2992 * intrinsic calibration transforms have been applied to a 2993 * world point, then the {@link CameraCharacteristics#LENS_DISTORTION android.lens.distortion} 2994 * transform needs to be applied, and the result adjusted to 2995 * be in the {@link CameraCharacteristics#SENSOR_INFO_ACTIVE_ARRAY_SIZE android.sensor.info.activeArraySize} coordinate 2996 * system (where <code>(0, 0)</code> is the top-left of the 2997 * activeArraySize rectangle), to determine the final pixel 2998 * coordinate of the world point for processed (non-RAW) 2999 * output buffers.</p> 3000 * <p>For camera devices, the center of pixel <code>(x,y)</code> is located at 3001 * coordinate <code>(x + 0.5, y + 0.5)</code>. So on a device with a 3002 * precorrection active array of size <code>(10,10)</code>, the valid pixel 3003 * indices go from <code>(0,0)-(9,9)</code>, and an perfectly-built camera would 3004 * have an optical center at the exact center of the pixel grid, at 3005 * coordinates <code>(5.0, 5.0)</code>, which is the top-left corner of pixel 3006 * <code>(5,5)</code>.</p> 3007 * <p><b>Units</b>: 3008 * Pixels in the 3009 * {@link CameraCharacteristics#SENSOR_INFO_PRE_CORRECTION_ACTIVE_ARRAY_SIZE android.sensor.info.preCorrectionActiveArraySize} 3010 * coordinate system.</p> 3011 * <p><b>Optional</b> - The value for this key may be {@code null} on some devices.</p> 3012 * <p><b>Permission {@link android.Manifest.permission#CAMERA } is needed to access this property</b></p> 3013 * 3014 * @see CameraCharacteristics#LENS_DISTORTION 3015 * @see CameraCharacteristics#LENS_POSE_ROTATION 3016 * @see CameraCharacteristics#LENS_POSE_TRANSLATION 3017 * @see CameraCharacteristics#SENSOR_INFO_ACTIVE_ARRAY_SIZE 3018 * @see CameraCharacteristics#SENSOR_INFO_PRE_CORRECTION_ACTIVE_ARRAY_SIZE 3019 */ 3020 @PublicKey 3021 @NonNull 3022 public static final Key<float[]> LENS_INTRINSIC_CALIBRATION = 3023 new Key<float[]>("android.lens.intrinsicCalibration", float[].class); 3024 3025 /** 3026 * <p>The correction coefficients to correct for this camera device's 3027 * radial and tangential lens distortion.</p> 3028 * <p>Four radial distortion coefficients <code>[kappa_0, kappa_1, kappa_2, 3029 * kappa_3]</code> and two tangential distortion coefficients 3030 * <code>[kappa_4, kappa_5]</code> that can be used to correct the 3031 * lens's geometric distortion with the mapping equations:</p> 3032 * <pre><code> x_c = x_i * ( kappa_0 + kappa_1 * r^2 + kappa_2 * r^4 + kappa_3 * r^6 ) + 3033 * kappa_4 * (2 * x_i * y_i) + kappa_5 * ( r^2 + 2 * x_i^2 ) 3034 * y_c = y_i * ( kappa_0 + kappa_1 * r^2 + kappa_2 * r^4 + kappa_3 * r^6 ) + 3035 * kappa_5 * (2 * x_i * y_i) + kappa_4 * ( r^2 + 2 * y_i^2 ) 3036 * </code></pre> 3037 * <p>Here, <code>[x_c, y_c]</code> are the coordinates to sample in the 3038 * input image that correspond to the pixel values in the 3039 * corrected image at the coordinate <code>[x_i, y_i]</code>:</p> 3040 * <pre><code> correctedImage(x_i, y_i) = sample_at(x_c, y_c, inputImage) 3041 * </code></pre> 3042 * <p>The pixel coordinates are defined in a normalized 3043 * coordinate system related to the 3044 * {@link CameraCharacteristics#LENS_INTRINSIC_CALIBRATION android.lens.intrinsicCalibration} calibration fields. 3045 * Both <code>[x_i, y_i]</code> and <code>[x_c, y_c]</code> have <code>(0,0)</code> at the 3046 * lens optical center <code>[c_x, c_y]</code>. The maximum magnitudes 3047 * of both x and y coordinates are normalized to be 1 at the 3048 * edge further from the optical center, so the range 3049 * for both dimensions is <code>-1 <= x <= 1</code>.</p> 3050 * <p>Finally, <code>r</code> represents the radial distance from the 3051 * optical center, <code>r^2 = x_i^2 + y_i^2</code>, and its magnitude 3052 * is therefore no larger than <code>|r| <= sqrt(2)</code>.</p> 3053 * <p>The distortion model used is the Brown-Conrady model.</p> 3054 * <p><b>Units</b>: 3055 * Unitless coefficients.</p> 3056 * <p><b>Optional</b> - The value for this key may be {@code null} on some devices.</p> 3057 * <p><b>Permission {@link android.Manifest.permission#CAMERA } is needed to access this property</b></p> 3058 * 3059 * @see CameraCharacteristics#LENS_INTRINSIC_CALIBRATION 3060 * @deprecated 3061 * <p>This field was inconsistently defined in terms of its 3062 * normalization. Use {@link CameraCharacteristics#LENS_DISTORTION android.lens.distortion} instead.</p> 3063 * 3064 * @see CameraCharacteristics#LENS_DISTORTION 3065 3066 */ 3067 @Deprecated 3068 @PublicKey 3069 @NonNull 3070 public static final Key<float[]> LENS_RADIAL_DISTORTION = 3071 new Key<float[]>("android.lens.radialDistortion", float[].class); 3072 3073 /** 3074 * <p>The correction coefficients to correct for this camera device's 3075 * radial and tangential lens distortion.</p> 3076 * <p>Replaces the deprecated {@link CameraCharacteristics#LENS_RADIAL_DISTORTION android.lens.radialDistortion} field, which was 3077 * inconsistently defined.</p> 3078 * <p>Three radial distortion coefficients <code>[kappa_1, kappa_2, 3079 * kappa_3]</code> and two tangential distortion coefficients 3080 * <code>[kappa_4, kappa_5]</code> that can be used to correct the 3081 * lens's geometric distortion with the mapping equations:</p> 3082 * <pre><code> x_c = x_i * ( 1 + kappa_1 * r^2 + kappa_2 * r^4 + kappa_3 * r^6 ) + 3083 * kappa_4 * (2 * x_i * y_i) + kappa_5 * ( r^2 + 2 * x_i^2 ) 3084 * y_c = y_i * ( 1 + kappa_1 * r^2 + kappa_2 * r^4 + kappa_3 * r^6 ) + 3085 * kappa_5 * (2 * x_i * y_i) + kappa_4 * ( r^2 + 2 * y_i^2 ) 3086 * </code></pre> 3087 * <p>Here, <code>[x_c, y_c]</code> are the coordinates to sample in the 3088 * input image that correspond to the pixel values in the 3089 * corrected image at the coordinate <code>[x_i, y_i]</code>:</p> 3090 * <pre><code> correctedImage(x_i, y_i) = sample_at(x_c, y_c, inputImage) 3091 * </code></pre> 3092 * <p>The pixel coordinates are defined in a coordinate system 3093 * related to the {@link CameraCharacteristics#LENS_INTRINSIC_CALIBRATION android.lens.intrinsicCalibration} 3094 * calibration fields; see that entry for details of the mapping stages. 3095 * Both <code>[x_i, y_i]</code> and <code>[x_c, y_c]</code> 3096 * have <code>(0,0)</code> at the lens optical center <code>[c_x, c_y]</code>, and 3097 * the range of the coordinates depends on the focal length 3098 * terms of the intrinsic calibration.</p> 3099 * <p>Finally, <code>r</code> represents the radial distance from the 3100 * optical center, <code>r^2 = x_i^2 + y_i^2</code>.</p> 3101 * <p>The distortion model used is the Brown-Conrady model.</p> 3102 * <p><b>Units</b>: 3103 * Unitless coefficients.</p> 3104 * <p><b>Optional</b> - The value for this key may be {@code null} on some devices.</p> 3105 * <p><b>Permission {@link android.Manifest.permission#CAMERA } is needed to access this property</b></p> 3106 * 3107 * @see CameraCharacteristics#LENS_INTRINSIC_CALIBRATION 3108 * @see CameraCharacteristics#LENS_RADIAL_DISTORTION 3109 */ 3110 @PublicKey 3111 @NonNull 3112 public static final Key<float[]> LENS_DISTORTION = 3113 new Key<float[]>("android.lens.distortion", float[].class); 3114 3115 /** 3116 * <p>Mode of operation for the noise reduction algorithm.</p> 3117 * <p>The noise reduction algorithm attempts to improve image quality by removing 3118 * excessive noise added by the capture process, especially in dark conditions.</p> 3119 * <p>OFF means no noise reduction will be applied by the camera device, for both raw and 3120 * YUV domain.</p> 3121 * <p>MINIMAL means that only sensor raw domain basic noise reduction is enabled ,to remove 3122 * demosaicing or other processing artifacts. For YUV_REPROCESSING, MINIMAL is same as OFF. 3123 * This mode is optional, may not be support by all devices. The application should check 3124 * {@link CameraCharacteristics#NOISE_REDUCTION_AVAILABLE_NOISE_REDUCTION_MODES android.noiseReduction.availableNoiseReductionModes} before using it.</p> 3125 * <p>FAST/HIGH_QUALITY both mean camera device determined noise filtering 3126 * will be applied. HIGH_QUALITY mode indicates that the camera device 3127 * will use the highest-quality noise filtering algorithms, 3128 * even if it slows down capture rate. FAST means the camera device will not 3129 * slow down capture rate when applying noise filtering. FAST may be the same as MINIMAL if 3130 * MINIMAL is listed, or the same as OFF if any noise filtering will slow down capture rate. 3131 * Every output stream will have a similar amount of enhancement applied.</p> 3132 * <p>ZERO_SHUTTER_LAG is meant to be used by applications that maintain a continuous circular 3133 * buffer of high-resolution images during preview and reprocess image(s) from that buffer 3134 * into a final capture when triggered by the user. In this mode, the camera device applies 3135 * noise reduction to low-resolution streams (below maximum recording resolution) to maximize 3136 * preview quality, but does not apply noise reduction to high-resolution streams, since 3137 * those will be reprocessed later if necessary.</p> 3138 * <p>For YUV_REPROCESSING, these FAST/HIGH_QUALITY modes both mean that the camera device 3139 * will apply FAST/HIGH_QUALITY YUV domain noise reduction, respectively. The camera device 3140 * may adjust the noise reduction parameters for best image quality based on the 3141 * {@link CaptureRequest#REPROCESS_EFFECTIVE_EXPOSURE_FACTOR android.reprocess.effectiveExposureFactor} if it is set.</p> 3142 * <p><b>Possible values:</b> 3143 * <ul> 3144 * <li>{@link #NOISE_REDUCTION_MODE_OFF OFF}</li> 3145 * <li>{@link #NOISE_REDUCTION_MODE_FAST FAST}</li> 3146 * <li>{@link #NOISE_REDUCTION_MODE_HIGH_QUALITY HIGH_QUALITY}</li> 3147 * <li>{@link #NOISE_REDUCTION_MODE_MINIMAL MINIMAL}</li> 3148 * <li>{@link #NOISE_REDUCTION_MODE_ZERO_SHUTTER_LAG ZERO_SHUTTER_LAG}</li> 3149 * </ul></p> 3150 * <p><b>Available values for this device:</b><br> 3151 * {@link CameraCharacteristics#NOISE_REDUCTION_AVAILABLE_NOISE_REDUCTION_MODES android.noiseReduction.availableNoiseReductionModes}</p> 3152 * <p><b>Optional</b> - The value for this key may be {@code null} on some devices.</p> 3153 * <p><b>Full capability</b> - 3154 * Present on all camera devices that report being {@link CameraCharacteristics#INFO_SUPPORTED_HARDWARE_LEVEL_FULL HARDWARE_LEVEL_FULL} devices in the 3155 * {@link CameraCharacteristics#INFO_SUPPORTED_HARDWARE_LEVEL android.info.supportedHardwareLevel} key</p> 3156 * 3157 * @see CameraCharacteristics#INFO_SUPPORTED_HARDWARE_LEVEL 3158 * @see CameraCharacteristics#NOISE_REDUCTION_AVAILABLE_NOISE_REDUCTION_MODES 3159 * @see CaptureRequest#REPROCESS_EFFECTIVE_EXPOSURE_FACTOR 3160 * @see #NOISE_REDUCTION_MODE_OFF 3161 * @see #NOISE_REDUCTION_MODE_FAST 3162 * @see #NOISE_REDUCTION_MODE_HIGH_QUALITY 3163 * @see #NOISE_REDUCTION_MODE_MINIMAL 3164 * @see #NOISE_REDUCTION_MODE_ZERO_SHUTTER_LAG 3165 */ 3166 @PublicKey 3167 @NonNull 3168 public static final Key<Integer> NOISE_REDUCTION_MODE = 3169 new Key<Integer>("android.noiseReduction.mode", int.class); 3170 3171 /** 3172 * <p>Whether a result given to the framework is the 3173 * final one for the capture, or only a partial that contains a 3174 * subset of the full set of dynamic metadata 3175 * values.</p> 3176 * <p>The entries in the result metadata buffers for a 3177 * single capture may not overlap, except for this entry. The 3178 * FINAL buffers must retain FIFO ordering relative to the 3179 * requests that generate them, so the FINAL buffer for frame 3 must 3180 * always be sent to the framework after the FINAL buffer for frame 2, and 3181 * before the FINAL buffer for frame 4. PARTIAL buffers may be returned 3182 * in any order relative to other frames, but all PARTIAL buffers for a given 3183 * capture must arrive before the FINAL buffer for that capture. This entry may 3184 * only be used by the camera device if quirks.usePartialResult is set to 1.</p> 3185 * <p><b>Range of valid values:</b><br> 3186 * Optional. Default value is FINAL.</p> 3187 * <p><b>Optional</b> - The value for this key may be {@code null} on some devices.</p> 3188 * @deprecated 3189 * <p>Not used in HALv3 or newer</p> 3190 3191 * @hide 3192 */ 3193 @Deprecated 3194 public static final Key<Boolean> QUIRKS_PARTIAL_RESULT = 3195 new Key<Boolean>("android.quirks.partialResult", boolean.class); 3196 3197 /** 3198 * <p>A frame counter set by the framework. This value monotonically 3199 * increases with every new result (that is, each new result has a unique 3200 * frameCount value).</p> 3201 * <p>Reset on release()</p> 3202 * <p><b>Units</b>: count of frames</p> 3203 * <p><b>Range of valid values:</b><br> 3204 * > 0</p> 3205 * <p><b>Optional</b> - The value for this key may be {@code null} on some devices.</p> 3206 * @deprecated 3207 * <p>Not used in HALv3 or newer</p> 3208 3209 * @hide 3210 */ 3211 @Deprecated 3212 public static final Key<Integer> REQUEST_FRAME_COUNT = 3213 new Key<Integer>("android.request.frameCount", int.class); 3214 3215 /** 3216 * <p>An application-specified ID for the current 3217 * request. Must be maintained unchanged in output 3218 * frame</p> 3219 * <p><b>Units</b>: arbitrary integer assigned by application</p> 3220 * <p><b>Range of valid values:</b><br> 3221 * Any int</p> 3222 * <p><b>Optional</b> - The value for this key may be {@code null} on some devices.</p> 3223 * @hide 3224 */ 3225 public static final Key<Integer> REQUEST_ID = 3226 new Key<Integer>("android.request.id", int.class); 3227 3228 /** 3229 * <p>Specifies the number of pipeline stages the frame went 3230 * through from when it was exposed to when the final completed result 3231 * was available to the framework.</p> 3232 * <p>Depending on what settings are used in the request, and 3233 * what streams are configured, the data may undergo less processing, 3234 * and some pipeline stages skipped.</p> 3235 * <p>See {@link CameraCharacteristics#REQUEST_PIPELINE_MAX_DEPTH android.request.pipelineMaxDepth} for more details.</p> 3236 * <p><b>Range of valid values:</b><br> 3237 * <= {@link CameraCharacteristics#REQUEST_PIPELINE_MAX_DEPTH android.request.pipelineMaxDepth}</p> 3238 * <p>This key is available on all devices.</p> 3239 * 3240 * @see CameraCharacteristics#REQUEST_PIPELINE_MAX_DEPTH 3241 */ 3242 @PublicKey 3243 @NonNull 3244 public static final Key<Byte> REQUEST_PIPELINE_DEPTH = 3245 new Key<Byte>("android.request.pipelineDepth", byte.class); 3246 3247 /** 3248 * <p>The desired region of the sensor to read out for this capture.</p> 3249 * <p>This control can be used to implement digital zoom.</p> 3250 * <p>For devices not supporting {@link CaptureRequest#DISTORTION_CORRECTION_MODE android.distortionCorrection.mode} control, the coordinate 3251 * system always follows that of {@link CameraCharacteristics#SENSOR_INFO_ACTIVE_ARRAY_SIZE android.sensor.info.activeArraySize}, with <code>(0, 0)</code> being 3252 * the top-left pixel of the active array.</p> 3253 * <p>For devices supporting {@link CaptureRequest#DISTORTION_CORRECTION_MODE android.distortionCorrection.mode} control, the coordinate 3254 * system depends on the mode being set. 3255 * When the distortion correction mode is OFF, the coordinate system follows 3256 * {@link CameraCharacteristics#SENSOR_INFO_PRE_CORRECTION_ACTIVE_ARRAY_SIZE android.sensor.info.preCorrectionActiveArraySize}, with 3257 * <code>(0, 0)</code> being the top-left pixel of the pre-correction active array. 3258 * When the distortion correction mode is not OFF, the coordinate system follows 3259 * {@link CameraCharacteristics#SENSOR_INFO_ACTIVE_ARRAY_SIZE android.sensor.info.activeArraySize}, with 3260 * <code>(0, 0)</code> being the top-left pixel of the active array.</p> 3261 * <p>Output streams use this rectangle to produce their output, 3262 * cropping to a smaller region if necessary to maintain the 3263 * stream's aspect ratio, then scaling the sensor input to 3264 * match the output's configured resolution.</p> 3265 * <p>The crop region is applied after the RAW to other color 3266 * space (e.g. YUV) conversion. Since raw streams 3267 * (e.g. RAW16) don't have the conversion stage, they are not 3268 * croppable. The crop region will be ignored by raw streams.</p> 3269 * <p>For non-raw streams, any additional per-stream cropping will 3270 * be done to maximize the final pixel area of the stream.</p> 3271 * <p>For example, if the crop region is set to a 4:3 aspect 3272 * ratio, then 4:3 streams will use the exact crop 3273 * region. 16:9 streams will further crop vertically 3274 * (letterbox).</p> 3275 * <p>Conversely, if the crop region is set to a 16:9, then 4:3 3276 * outputs will crop horizontally (pillarbox), and 16:9 3277 * streams will match exactly. These additional crops will 3278 * be centered within the crop region.</p> 3279 * <p>If the coordinate system is {@link CameraCharacteristics#SENSOR_INFO_ACTIVE_ARRAY_SIZE android.sensor.info.activeArraySize}, the width and height 3280 * of the crop region cannot be set to be smaller than 3281 * <code>floor( activeArraySize.width / {@link CameraCharacteristics#SCALER_AVAILABLE_MAX_DIGITAL_ZOOM android.scaler.availableMaxDigitalZoom} )</code> and 3282 * <code>floor( activeArraySize.height / {@link CameraCharacteristics#SCALER_AVAILABLE_MAX_DIGITAL_ZOOM android.scaler.availableMaxDigitalZoom} )</code>, respectively.</p> 3283 * <p>If the coordinate system is {@link CameraCharacteristics#SENSOR_INFO_PRE_CORRECTION_ACTIVE_ARRAY_SIZE android.sensor.info.preCorrectionActiveArraySize}, the width 3284 * and height of the crop region cannot be set to be smaller than 3285 * <code>floor( preCorrectionActiveArraySize.width / {@link CameraCharacteristics#SCALER_AVAILABLE_MAX_DIGITAL_ZOOM android.scaler.availableMaxDigitalZoom} )</code> 3286 * and 3287 * <code>floor( preCorrectionActiveArraySize.height / {@link CameraCharacteristics#SCALER_AVAILABLE_MAX_DIGITAL_ZOOM android.scaler.availableMaxDigitalZoom} )</code>, 3288 * respectively.</p> 3289 * <p>The camera device may adjust the crop region to account 3290 * for rounding and other hardware requirements; the final 3291 * crop region used will be included in the output capture 3292 * result.</p> 3293 * <p><b>Units</b>: Pixel coordinates relative to 3294 * {@link CameraCharacteristics#SENSOR_INFO_ACTIVE_ARRAY_SIZE android.sensor.info.activeArraySize} or 3295 * {@link CameraCharacteristics#SENSOR_INFO_PRE_CORRECTION_ACTIVE_ARRAY_SIZE android.sensor.info.preCorrectionActiveArraySize} depending on distortion correction 3296 * capability and mode</p> 3297 * <p>This key is available on all devices.</p> 3298 * 3299 * @see CaptureRequest#DISTORTION_CORRECTION_MODE 3300 * @see CameraCharacteristics#SCALER_AVAILABLE_MAX_DIGITAL_ZOOM 3301 * @see CameraCharacteristics#SENSOR_INFO_ACTIVE_ARRAY_SIZE 3302 * @see CameraCharacteristics#SENSOR_INFO_PRE_CORRECTION_ACTIVE_ARRAY_SIZE 3303 */ 3304 @PublicKey 3305 @NonNull 3306 public static final Key<android.graphics.Rect> SCALER_CROP_REGION = 3307 new Key<android.graphics.Rect>("android.scaler.cropRegion", android.graphics.Rect.class); 3308 3309 /** 3310 * <p>Duration each pixel is exposed to 3311 * light.</p> 3312 * <p>If the sensor can't expose this exact duration, it will shorten the 3313 * duration exposed to the nearest possible value (rather than expose longer). 3314 * The final exposure time used will be available in the output capture result.</p> 3315 * <p>This control is only effective if {@link CaptureRequest#CONTROL_AE_MODE android.control.aeMode} or {@link CaptureRequest#CONTROL_MODE android.control.mode} is set to 3316 * OFF; otherwise the auto-exposure algorithm will override this value.</p> 3317 * <p><b>Units</b>: Nanoseconds</p> 3318 * <p><b>Range of valid values:</b><br> 3319 * {@link CameraCharacteristics#SENSOR_INFO_EXPOSURE_TIME_RANGE android.sensor.info.exposureTimeRange}</p> 3320 * <p><b>Optional</b> - The value for this key may be {@code null} on some devices.</p> 3321 * <p><b>Full capability</b> - 3322 * Present on all camera devices that report being {@link CameraCharacteristics#INFO_SUPPORTED_HARDWARE_LEVEL_FULL HARDWARE_LEVEL_FULL} devices in the 3323 * {@link CameraCharacteristics#INFO_SUPPORTED_HARDWARE_LEVEL android.info.supportedHardwareLevel} key</p> 3324 * 3325 * @see CaptureRequest#CONTROL_AE_MODE 3326 * @see CaptureRequest#CONTROL_MODE 3327 * @see CameraCharacteristics#INFO_SUPPORTED_HARDWARE_LEVEL 3328 * @see CameraCharacteristics#SENSOR_INFO_EXPOSURE_TIME_RANGE 3329 */ 3330 @PublicKey 3331 @NonNull 3332 public static final Key<Long> SENSOR_EXPOSURE_TIME = 3333 new Key<Long>("android.sensor.exposureTime", long.class); 3334 3335 /** 3336 * <p>Duration from start of frame exposure to 3337 * start of next frame exposure.</p> 3338 * <p>The maximum frame rate that can be supported by a camera subsystem is 3339 * a function of many factors:</p> 3340 * <ul> 3341 * <li>Requested resolutions of output image streams</li> 3342 * <li>Availability of binning / skipping modes on the imager</li> 3343 * <li>The bandwidth of the imager interface</li> 3344 * <li>The bandwidth of the various ISP processing blocks</li> 3345 * </ul> 3346 * <p>Since these factors can vary greatly between different ISPs and 3347 * sensors, the camera abstraction tries to represent the bandwidth 3348 * restrictions with as simple a model as possible.</p> 3349 * <p>The model presented has the following characteristics:</p> 3350 * <ul> 3351 * <li>The image sensor is always configured to output the smallest 3352 * resolution possible given the application's requested output stream 3353 * sizes. The smallest resolution is defined as being at least as large 3354 * as the largest requested output stream size; the camera pipeline must 3355 * never digitally upsample sensor data when the crop region covers the 3356 * whole sensor. In general, this means that if only small output stream 3357 * resolutions are configured, the sensor can provide a higher frame 3358 * rate.</li> 3359 * <li>Since any request may use any or all the currently configured 3360 * output streams, the sensor and ISP must be configured to support 3361 * scaling a single capture to all the streams at the same time. This 3362 * means the camera pipeline must be ready to produce the largest 3363 * requested output size without any delay. Therefore, the overall 3364 * frame rate of a given configured stream set is governed only by the 3365 * largest requested stream resolution.</li> 3366 * <li>Using more than one output stream in a request does not affect the 3367 * frame duration.</li> 3368 * <li>Certain format-streams may need to do additional background processing 3369 * before data is consumed/produced by that stream. These processors 3370 * can run concurrently to the rest of the camera pipeline, but 3371 * cannot process more than 1 capture at a time.</li> 3372 * </ul> 3373 * <p>The necessary information for the application, given the model above, is provided via 3374 * {@link android.hardware.camera2.params.StreamConfigurationMap#getOutputMinFrameDuration }. 3375 * These are used to determine the maximum frame rate / minimum frame duration that is 3376 * possible for a given stream configuration.</p> 3377 * <p>Specifically, the application can use the following rules to 3378 * determine the minimum frame duration it can request from the camera 3379 * device:</p> 3380 * <ol> 3381 * <li>Let the set of currently configured input/output streams be called <code>S</code>.</li> 3382 * <li>Find the minimum frame durations for each stream in <code>S</code>, by looking it up in {@link android.hardware.camera2.params.StreamConfigurationMap#getOutputMinFrameDuration } 3383 * (with its respective size/format). Let this set of frame durations be called <code>F</code>.</li> 3384 * <li>For any given request <code>R</code>, the minimum frame duration allowed for <code>R</code> is the maximum 3385 * out of all values in <code>F</code>. Let the streams used in <code>R</code> be called <code>S_r</code>.</li> 3386 * </ol> 3387 * <p>If none of the streams in <code>S_r</code> have a stall time (listed in {@link android.hardware.camera2.params.StreamConfigurationMap#getOutputStallDuration } 3388 * using its respective size/format), then the frame duration in <code>F</code> determines the steady 3389 * state frame rate that the application will get if it uses <code>R</code> as a repeating request. Let 3390 * this special kind of request be called <code>Rsimple</code>.</p> 3391 * <p>A repeating request <code>Rsimple</code> can be <em>occasionally</em> interleaved by a single capture of a 3392 * new request <code>Rstall</code> (which has at least one in-use stream with a non-0 stall time) and if 3393 * <code>Rstall</code> has the same minimum frame duration this will not cause a frame rate loss if all 3394 * buffers from the previous <code>Rstall</code> have already been delivered.</p> 3395 * <p>For more details about stalling, see {@link android.hardware.camera2.params.StreamConfigurationMap#getOutputStallDuration }.</p> 3396 * <p>This control is only effective if {@link CaptureRequest#CONTROL_AE_MODE android.control.aeMode} or {@link CaptureRequest#CONTROL_MODE android.control.mode} is set to 3397 * OFF; otherwise the auto-exposure algorithm will override this value.</p> 3398 * <p><b>Units</b>: Nanoseconds</p> 3399 * <p><b>Range of valid values:</b><br> 3400 * See {@link CameraCharacteristics#SENSOR_INFO_MAX_FRAME_DURATION android.sensor.info.maxFrameDuration}, {@link android.hardware.camera2.params.StreamConfigurationMap }. 3401 * The duration is capped to <code>max(duration, exposureTime + overhead)</code>.</p> 3402 * <p><b>Optional</b> - The value for this key may be {@code null} on some devices.</p> 3403 * <p><b>Full capability</b> - 3404 * Present on all camera devices that report being {@link CameraCharacteristics#INFO_SUPPORTED_HARDWARE_LEVEL_FULL HARDWARE_LEVEL_FULL} devices in the 3405 * {@link CameraCharacteristics#INFO_SUPPORTED_HARDWARE_LEVEL android.info.supportedHardwareLevel} key</p> 3406 * 3407 * @see CaptureRequest#CONTROL_AE_MODE 3408 * @see CaptureRequest#CONTROL_MODE 3409 * @see CameraCharacteristics#INFO_SUPPORTED_HARDWARE_LEVEL 3410 * @see CameraCharacteristics#SENSOR_INFO_MAX_FRAME_DURATION 3411 */ 3412 @PublicKey 3413 @NonNull 3414 public static final Key<Long> SENSOR_FRAME_DURATION = 3415 new Key<Long>("android.sensor.frameDuration", long.class); 3416 3417 /** 3418 * <p>The amount of gain applied to sensor data 3419 * before processing.</p> 3420 * <p>The sensitivity is the standard ISO sensitivity value, 3421 * as defined in ISO 12232:2006.</p> 3422 * <p>The sensitivity must be within {@link CameraCharacteristics#SENSOR_INFO_SENSITIVITY_RANGE android.sensor.info.sensitivityRange}, and 3423 * if if it less than {@link CameraCharacteristics#SENSOR_MAX_ANALOG_SENSITIVITY android.sensor.maxAnalogSensitivity}, the camera device 3424 * is guaranteed to use only analog amplification for applying the gain.</p> 3425 * <p>If the camera device cannot apply the exact sensitivity 3426 * requested, it will reduce the gain to the nearest supported 3427 * value. The final sensitivity used will be available in the 3428 * output capture result.</p> 3429 * <p>This control is only effective if {@link CaptureRequest#CONTROL_AE_MODE android.control.aeMode} or {@link CaptureRequest#CONTROL_MODE android.control.mode} is set to 3430 * OFF; otherwise the auto-exposure algorithm will override this value.</p> 3431 * <p><b>Units</b>: ISO arithmetic units</p> 3432 * <p><b>Range of valid values:</b><br> 3433 * {@link CameraCharacteristics#SENSOR_INFO_SENSITIVITY_RANGE android.sensor.info.sensitivityRange}</p> 3434 * <p><b>Optional</b> - The value for this key may be {@code null} on some devices.</p> 3435 * <p><b>Full capability</b> - 3436 * Present on all camera devices that report being {@link CameraCharacteristics#INFO_SUPPORTED_HARDWARE_LEVEL_FULL HARDWARE_LEVEL_FULL} devices in the 3437 * {@link CameraCharacteristics#INFO_SUPPORTED_HARDWARE_LEVEL android.info.supportedHardwareLevel} key</p> 3438 * 3439 * @see CaptureRequest#CONTROL_AE_MODE 3440 * @see CaptureRequest#CONTROL_MODE 3441 * @see CameraCharacteristics#INFO_SUPPORTED_HARDWARE_LEVEL 3442 * @see CameraCharacteristics#SENSOR_INFO_SENSITIVITY_RANGE 3443 * @see CameraCharacteristics#SENSOR_MAX_ANALOG_SENSITIVITY 3444 */ 3445 @PublicKey 3446 @NonNull 3447 public static final Key<Integer> SENSOR_SENSITIVITY = 3448 new Key<Integer>("android.sensor.sensitivity", int.class); 3449 3450 /** 3451 * <p>Time at start of exposure of first 3452 * row of the image sensor active array, in nanoseconds.</p> 3453 * <p>The timestamps are also included in all image 3454 * buffers produced for the same capture, and will be identical 3455 * on all the outputs.</p> 3456 * <p>When {@link CameraCharacteristics#SENSOR_INFO_TIMESTAMP_SOURCE android.sensor.info.timestampSource} <code>==</code> UNKNOWN, 3457 * the timestamps measure time since an unspecified starting point, 3458 * and are monotonically increasing. They can be compared with the 3459 * timestamps for other captures from the same camera device, but are 3460 * not guaranteed to be comparable to any other time source.</p> 3461 * <p>When {@link CameraCharacteristics#SENSOR_INFO_TIMESTAMP_SOURCE android.sensor.info.timestampSource} <code>==</code> REALTIME, the 3462 * timestamps measure time in the same timebase as {@link android.os.SystemClock#elapsedRealtimeNanos }, and they can 3463 * be compared to other timestamps from other subsystems that 3464 * are using that base.</p> 3465 * <p>For reprocessing, the timestamp will match the start of exposure of 3466 * the input image, i.e. {@link CaptureResult#SENSOR_TIMESTAMP the 3467 * timestamp} in the TotalCaptureResult that was used to create the 3468 * reprocess capture request.</p> 3469 * <p><b>Units</b>: Nanoseconds</p> 3470 * <p><b>Range of valid values:</b><br> 3471 * > 0</p> 3472 * <p>This key is available on all devices.</p> 3473 * 3474 * @see CameraCharacteristics#SENSOR_INFO_TIMESTAMP_SOURCE 3475 */ 3476 @PublicKey 3477 @NonNull 3478 public static final Key<Long> SENSOR_TIMESTAMP = 3479 new Key<Long>("android.sensor.timestamp", long.class); 3480 3481 /** 3482 * <p>The estimated camera neutral color in the native sensor colorspace at 3483 * the time of capture.</p> 3484 * <p>This value gives the neutral color point encoded as an RGB value in the 3485 * native sensor color space. The neutral color point indicates the 3486 * currently estimated white point of the scene illumination. It can be 3487 * used to interpolate between the provided color transforms when 3488 * processing raw sensor data.</p> 3489 * <p>The order of the values is R, G, B; where R is in the lowest index.</p> 3490 * <p>Starting from Android Q, this key will not be present for a MONOCHROME camera, even if 3491 * the camera device has RAW capability.</p> 3492 * <p><b>Optional</b> - The value for this key may be {@code null} on some devices.</p> 3493 */ 3494 @PublicKey 3495 @NonNull 3496 public static final Key<Rational[]> SENSOR_NEUTRAL_COLOR_POINT = 3497 new Key<Rational[]>("android.sensor.neutralColorPoint", Rational[].class); 3498 3499 /** 3500 * <p>Noise model coefficients for each CFA mosaic channel.</p> 3501 * <p>This key contains two noise model coefficients for each CFA channel 3502 * corresponding to the sensor amplification (S) and sensor readout 3503 * noise (O). These are given as pairs of coefficients for each channel 3504 * in the same order as channels listed for the CFA layout key 3505 * (see {@link CameraCharacteristics#SENSOR_INFO_COLOR_FILTER_ARRANGEMENT android.sensor.info.colorFilterArrangement}). This is 3506 * represented as an array of Pair<Double, Double>, where 3507 * the first member of the Pair at index n is the S coefficient and the 3508 * second member is the O coefficient for the nth color channel in the CFA.</p> 3509 * <p>These coefficients are used in a two parameter noise model to describe 3510 * the amount of noise present in the image for each CFA channel. The 3511 * noise model used here is:</p> 3512 * <p>N(x) = sqrt(Sx + O)</p> 3513 * <p>Where x represents the recorded signal of a CFA channel normalized to 3514 * the range [0, 1], and S and O are the noise model coeffiecients for 3515 * that channel.</p> 3516 * <p>A more detailed description of the noise model can be found in the 3517 * Adobe DNG specification for the NoiseProfile tag.</p> 3518 * <p>For a MONOCHROME camera, there is only one color channel. So the noise model coefficients 3519 * will only contain one S and one O.</p> 3520 * <p><b>Optional</b> - The value for this key may be {@code null} on some devices.</p> 3521 * 3522 * @see CameraCharacteristics#SENSOR_INFO_COLOR_FILTER_ARRANGEMENT 3523 */ 3524 @PublicKey 3525 @NonNull 3526 public static final Key<android.util.Pair<Double,Double>[]> SENSOR_NOISE_PROFILE = 3527 new Key<android.util.Pair<Double,Double>[]>("android.sensor.noiseProfile", new TypeReference<android.util.Pair<Double,Double>[]>() {{ }}); 3528 3529 /** 3530 * <p>The worst-case divergence between Bayer green channels.</p> 3531 * <p>This value is an estimate of the worst case split between the 3532 * Bayer green channels in the red and blue rows in the sensor color 3533 * filter array.</p> 3534 * <p>The green split is calculated as follows:</p> 3535 * <ol> 3536 * <li>A 5x5 pixel (or larger) window W within the active sensor array is 3537 * chosen. The term 'pixel' here is taken to mean a group of 4 Bayer 3538 * mosaic channels (R, Gr, Gb, B). The location and size of the window 3539 * chosen is implementation defined, and should be chosen to provide a 3540 * green split estimate that is both representative of the entire image 3541 * for this camera sensor, and can be calculated quickly.</li> 3542 * <li>The arithmetic mean of the green channels from the red 3543 * rows (mean_Gr) within W is computed.</li> 3544 * <li>The arithmetic mean of the green channels from the blue 3545 * rows (mean_Gb) within W is computed.</li> 3546 * <li>The maximum ratio R of the two means is computed as follows: 3547 * <code>R = max((mean_Gr + 1)/(mean_Gb + 1), (mean_Gb + 1)/(mean_Gr + 1))</code></li> 3548 * </ol> 3549 * <p>The ratio R is the green split divergence reported for this property, 3550 * which represents how much the green channels differ in the mosaic 3551 * pattern. This value is typically used to determine the treatment of 3552 * the green mosaic channels when demosaicing.</p> 3553 * <p>The green split value can be roughly interpreted as follows:</p> 3554 * <ul> 3555 * <li>R < 1.03 is a negligible split (<3% divergence).</li> 3556 * <li>1.20 <= R >= 1.03 will require some software 3557 * correction to avoid demosaic errors (3-20% divergence).</li> 3558 * <li>R > 1.20 will require strong software correction to produce 3559 * a usuable image (>20% divergence).</li> 3560 * </ul> 3561 * <p>Starting from Android Q, this key will not be present for a MONOCHROME camera, even if 3562 * the camera device has RAW capability.</p> 3563 * <p><b>Range of valid values:</b><br></p> 3564 * <p>>= 0</p> 3565 * <p><b>Optional</b> - The value for this key may be {@code null} on some devices.</p> 3566 */ 3567 @PublicKey 3568 @NonNull 3569 public static final Key<Float> SENSOR_GREEN_SPLIT = 3570 new Key<Float>("android.sensor.greenSplit", float.class); 3571 3572 /** 3573 * <p>A pixel <code>[R, G_even, G_odd, B]</code> that supplies the test pattern 3574 * when {@link CaptureRequest#SENSOR_TEST_PATTERN_MODE android.sensor.testPatternMode} is SOLID_COLOR.</p> 3575 * <p>Each color channel is treated as an unsigned 32-bit integer. 3576 * The camera device then uses the most significant X bits 3577 * that correspond to how many bits are in its Bayer raw sensor 3578 * output.</p> 3579 * <p>For example, a sensor with RAW10 Bayer output would use the 3580 * 10 most significant bits from each color channel.</p> 3581 * <p><b>Optional</b> - The value for this key may be {@code null} on some devices.</p> 3582 * 3583 * @see CaptureRequest#SENSOR_TEST_PATTERN_MODE 3584 */ 3585 @PublicKey 3586 @NonNull 3587 public static final Key<int[]> SENSOR_TEST_PATTERN_DATA = 3588 new Key<int[]>("android.sensor.testPatternData", int[].class); 3589 3590 /** 3591 * <p>When enabled, the sensor sends a test pattern instead of 3592 * doing a real exposure from the camera.</p> 3593 * <p>When a test pattern is enabled, all manual sensor controls specified 3594 * by android.sensor.* will be ignored. All other controls should 3595 * work as normal.</p> 3596 * <p>For example, if manual flash is enabled, flash firing should still 3597 * occur (and that the test pattern remain unmodified, since the flash 3598 * would not actually affect it).</p> 3599 * <p>Defaults to OFF.</p> 3600 * <p><b>Possible values:</b> 3601 * <ul> 3602 * <li>{@link #SENSOR_TEST_PATTERN_MODE_OFF OFF}</li> 3603 * <li>{@link #SENSOR_TEST_PATTERN_MODE_SOLID_COLOR SOLID_COLOR}</li> 3604 * <li>{@link #SENSOR_TEST_PATTERN_MODE_COLOR_BARS COLOR_BARS}</li> 3605 * <li>{@link #SENSOR_TEST_PATTERN_MODE_COLOR_BARS_FADE_TO_GRAY COLOR_BARS_FADE_TO_GRAY}</li> 3606 * <li>{@link #SENSOR_TEST_PATTERN_MODE_PN9 PN9}</li> 3607 * <li>{@link #SENSOR_TEST_PATTERN_MODE_CUSTOM1 CUSTOM1}</li> 3608 * </ul></p> 3609 * <p><b>Available values for this device:</b><br> 3610 * {@link CameraCharacteristics#SENSOR_AVAILABLE_TEST_PATTERN_MODES android.sensor.availableTestPatternModes}</p> 3611 * <p><b>Optional</b> - The value for this key may be {@code null} on some devices.</p> 3612 * 3613 * @see CameraCharacteristics#SENSOR_AVAILABLE_TEST_PATTERN_MODES 3614 * @see #SENSOR_TEST_PATTERN_MODE_OFF 3615 * @see #SENSOR_TEST_PATTERN_MODE_SOLID_COLOR 3616 * @see #SENSOR_TEST_PATTERN_MODE_COLOR_BARS 3617 * @see #SENSOR_TEST_PATTERN_MODE_COLOR_BARS_FADE_TO_GRAY 3618 * @see #SENSOR_TEST_PATTERN_MODE_PN9 3619 * @see #SENSOR_TEST_PATTERN_MODE_CUSTOM1 3620 */ 3621 @PublicKey 3622 @NonNull 3623 public static final Key<Integer> SENSOR_TEST_PATTERN_MODE = 3624 new Key<Integer>("android.sensor.testPatternMode", int.class); 3625 3626 /** 3627 * <p>Duration between the start of first row exposure 3628 * and the start of last row exposure.</p> 3629 * <p>This is the exposure time skew between the first and last 3630 * row exposure start times. The first row and the last row are 3631 * the first and last rows inside of the 3632 * {@link CameraCharacteristics#SENSOR_INFO_ACTIVE_ARRAY_SIZE android.sensor.info.activeArraySize}.</p> 3633 * <p>For typical camera sensors that use rolling shutters, this is also equivalent 3634 * to the frame readout time.</p> 3635 * <p><b>Units</b>: Nanoseconds</p> 3636 * <p><b>Range of valid values:</b><br> 3637 * >= 0 and < 3638 * {@link android.hardware.camera2.params.StreamConfigurationMap#getOutputMinFrameDuration }.</p> 3639 * <p><b>Optional</b> - The value for this key may be {@code null} on some devices.</p> 3640 * <p><b>Limited capability</b> - 3641 * Present on all camera devices that report being at least {@link CameraCharacteristics#INFO_SUPPORTED_HARDWARE_LEVEL_LIMITED HARDWARE_LEVEL_LIMITED} devices in the 3642 * {@link CameraCharacteristics#INFO_SUPPORTED_HARDWARE_LEVEL android.info.supportedHardwareLevel} key</p> 3643 * 3644 * @see CameraCharacteristics#INFO_SUPPORTED_HARDWARE_LEVEL 3645 * @see CameraCharacteristics#SENSOR_INFO_ACTIVE_ARRAY_SIZE 3646 */ 3647 @PublicKey 3648 @NonNull 3649 public static final Key<Long> SENSOR_ROLLING_SHUTTER_SKEW = 3650 new Key<Long>("android.sensor.rollingShutterSkew", long.class); 3651 3652 /** 3653 * <p>A per-frame dynamic black level offset for each of the color filter 3654 * arrangement (CFA) mosaic channels.</p> 3655 * <p>Camera sensor black levels may vary dramatically for different 3656 * capture settings (e.g. {@link CaptureRequest#SENSOR_SENSITIVITY android.sensor.sensitivity}). The fixed black 3657 * level reported by {@link CameraCharacteristics#SENSOR_BLACK_LEVEL_PATTERN android.sensor.blackLevelPattern} may be too 3658 * inaccurate to represent the actual value on a per-frame basis. The 3659 * camera device internal pipeline relies on reliable black level values 3660 * to process the raw images appropriately. To get the best image 3661 * quality, the camera device may choose to estimate the per frame black 3662 * level values either based on optically shielded black regions 3663 * ({@link CameraCharacteristics#SENSOR_OPTICAL_BLACK_REGIONS android.sensor.opticalBlackRegions}) or its internal model.</p> 3664 * <p>This key reports the camera device estimated per-frame zero light 3665 * value for each of the CFA mosaic channels in the camera sensor. The 3666 * {@link CameraCharacteristics#SENSOR_BLACK_LEVEL_PATTERN android.sensor.blackLevelPattern} may only represent a coarse 3667 * approximation of the actual black level values. This value is the 3668 * black level used in camera device internal image processing pipeline 3669 * and generally more accurate than the fixed black level values. 3670 * However, since they are estimated values by the camera device, they 3671 * may not be as accurate as the black level values calculated from the 3672 * optical black pixels reported by {@link CameraCharacteristics#SENSOR_OPTICAL_BLACK_REGIONS android.sensor.opticalBlackRegions}.</p> 3673 * <p>The values are given in the same order as channels listed for the CFA 3674 * layout key (see {@link CameraCharacteristics#SENSOR_INFO_COLOR_FILTER_ARRANGEMENT android.sensor.info.colorFilterArrangement}), i.e. the 3675 * nth value given corresponds to the black level offset for the nth 3676 * color channel listed in the CFA.</p> 3677 * <p>For a MONOCHROME camera, all of the 2x2 channels must have the same values.</p> 3678 * <p>This key will be available if {@link CameraCharacteristics#SENSOR_OPTICAL_BLACK_REGIONS android.sensor.opticalBlackRegions} is available or the 3679 * camera device advertises this key via {@link android.hardware.camera2.CameraCharacteristics#getAvailableCaptureResultKeys }.</p> 3680 * <p><b>Range of valid values:</b><br> 3681 * >= 0 for each.</p> 3682 * <p><b>Optional</b> - The value for this key may be {@code null} on some devices.</p> 3683 * 3684 * @see CameraCharacteristics#SENSOR_BLACK_LEVEL_PATTERN 3685 * @see CameraCharacteristics#SENSOR_INFO_COLOR_FILTER_ARRANGEMENT 3686 * @see CameraCharacteristics#SENSOR_OPTICAL_BLACK_REGIONS 3687 * @see CaptureRequest#SENSOR_SENSITIVITY 3688 */ 3689 @PublicKey 3690 @NonNull 3691 public static final Key<float[]> SENSOR_DYNAMIC_BLACK_LEVEL = 3692 new Key<float[]>("android.sensor.dynamicBlackLevel", float[].class); 3693 3694 /** 3695 * <p>Maximum raw value output by sensor for this frame.</p> 3696 * <p>Since the {@link CameraCharacteristics#SENSOR_BLACK_LEVEL_PATTERN android.sensor.blackLevelPattern} may change for different 3697 * capture settings (e.g., {@link CaptureRequest#SENSOR_SENSITIVITY android.sensor.sensitivity}), the white 3698 * level will change accordingly. This key is similar to 3699 * {@link CameraCharacteristics#SENSOR_INFO_WHITE_LEVEL android.sensor.info.whiteLevel}, but specifies the camera device 3700 * estimated white level for each frame.</p> 3701 * <p>This key will be available if {@link CameraCharacteristics#SENSOR_OPTICAL_BLACK_REGIONS android.sensor.opticalBlackRegions} is 3702 * available or the camera device advertises this key via 3703 * {@link android.hardware.camera2.CameraCharacteristics#getAvailableCaptureRequestKeys }.</p> 3704 * <p><b>Range of valid values:</b><br> 3705 * >= 0</p> 3706 * <p><b>Optional</b> - The value for this key may be {@code null} on some devices.</p> 3707 * 3708 * @see CameraCharacteristics#SENSOR_BLACK_LEVEL_PATTERN 3709 * @see CameraCharacteristics#SENSOR_INFO_WHITE_LEVEL 3710 * @see CameraCharacteristics#SENSOR_OPTICAL_BLACK_REGIONS 3711 * @see CaptureRequest#SENSOR_SENSITIVITY 3712 */ 3713 @PublicKey 3714 @NonNull 3715 public static final Key<Integer> SENSOR_DYNAMIC_WHITE_LEVEL = 3716 new Key<Integer>("android.sensor.dynamicWhiteLevel", int.class); 3717 3718 /** 3719 * <p>Quality of lens shading correction applied 3720 * to the image data.</p> 3721 * <p>When set to OFF mode, no lens shading correction will be applied by the 3722 * camera device, and an identity lens shading map data will be provided 3723 * if <code>{@link CaptureRequest#STATISTICS_LENS_SHADING_MAP_MODE android.statistics.lensShadingMapMode} == ON</code>. For example, for lens 3724 * shading map with size of <code>[ 4, 3 ]</code>, 3725 * the output {@link CaptureResult#STATISTICS_LENS_SHADING_CORRECTION_MAP android.statistics.lensShadingCorrectionMap} for this case will be an identity 3726 * map shown below:</p> 3727 * <pre><code>[ 1.0, 1.0, 1.0, 1.0, 1.0, 1.0, 1.0, 1.0, 3728 * 1.0, 1.0, 1.0, 1.0, 1.0, 1.0, 1.0, 1.0, 3729 * 1.0, 1.0, 1.0, 1.0, 1.0, 1.0, 1.0, 1.0, 3730 * 1.0, 1.0, 1.0, 1.0, 1.0, 1.0, 1.0, 1.0, 3731 * 1.0, 1.0, 1.0, 1.0, 1.0, 1.0, 1.0, 1.0, 3732 * 1.0, 1.0, 1.0, 1.0, 1.0, 1.0, 1.0, 1.0 ] 3733 * </code></pre> 3734 * <p>When set to other modes, lens shading correction will be applied by the camera 3735 * device. Applications can request lens shading map data by setting 3736 * {@link CaptureRequest#STATISTICS_LENS_SHADING_MAP_MODE android.statistics.lensShadingMapMode} to ON, and then the camera device will provide lens 3737 * shading map data in {@link CaptureResult#STATISTICS_LENS_SHADING_CORRECTION_MAP android.statistics.lensShadingCorrectionMap}; the returned shading map 3738 * data will be the one applied by the camera device for this capture request.</p> 3739 * <p>The shading map data may depend on the auto-exposure (AE) and AWB statistics, therefore 3740 * the reliability of the map data may be affected by the AE and AWB algorithms. When AE and 3741 * AWB are in AUTO modes({@link CaptureRequest#CONTROL_AE_MODE android.control.aeMode} <code>!=</code> OFF and {@link CaptureRequest#CONTROL_AWB_MODE android.control.awbMode} <code>!=</code> 3742 * OFF), to get best results, it is recommended that the applications wait for the AE and AWB 3743 * to be converged before using the returned shading map data.</p> 3744 * <p><b>Possible values:</b> 3745 * <ul> 3746 * <li>{@link #SHADING_MODE_OFF OFF}</li> 3747 * <li>{@link #SHADING_MODE_FAST FAST}</li> 3748 * <li>{@link #SHADING_MODE_HIGH_QUALITY HIGH_QUALITY}</li> 3749 * </ul></p> 3750 * <p><b>Available values for this device:</b><br> 3751 * {@link CameraCharacteristics#SHADING_AVAILABLE_MODES android.shading.availableModes}</p> 3752 * <p><b>Optional</b> - The value for this key may be {@code null} on some devices.</p> 3753 * <p><b>Full capability</b> - 3754 * Present on all camera devices that report being {@link CameraCharacteristics#INFO_SUPPORTED_HARDWARE_LEVEL_FULL HARDWARE_LEVEL_FULL} devices in the 3755 * {@link CameraCharacteristics#INFO_SUPPORTED_HARDWARE_LEVEL android.info.supportedHardwareLevel} key</p> 3756 * 3757 * @see CaptureRequest#CONTROL_AE_MODE 3758 * @see CaptureRequest#CONTROL_AWB_MODE 3759 * @see CameraCharacteristics#INFO_SUPPORTED_HARDWARE_LEVEL 3760 * @see CameraCharacteristics#SHADING_AVAILABLE_MODES 3761 * @see CaptureResult#STATISTICS_LENS_SHADING_CORRECTION_MAP 3762 * @see CaptureRequest#STATISTICS_LENS_SHADING_MAP_MODE 3763 * @see #SHADING_MODE_OFF 3764 * @see #SHADING_MODE_FAST 3765 * @see #SHADING_MODE_HIGH_QUALITY 3766 */ 3767 @PublicKey 3768 @NonNull 3769 public static final Key<Integer> SHADING_MODE = 3770 new Key<Integer>("android.shading.mode", int.class); 3771 3772 /** 3773 * <p>Operating mode for the face detector 3774 * unit.</p> 3775 * <p>Whether face detection is enabled, and whether it 3776 * should output just the basic fields or the full set of 3777 * fields.</p> 3778 * <p><b>Possible values:</b> 3779 * <ul> 3780 * <li>{@link #STATISTICS_FACE_DETECT_MODE_OFF OFF}</li> 3781 * <li>{@link #STATISTICS_FACE_DETECT_MODE_SIMPLE SIMPLE}</li> 3782 * <li>{@link #STATISTICS_FACE_DETECT_MODE_FULL FULL}</li> 3783 * </ul></p> 3784 * <p><b>Available values for this device:</b><br> 3785 * {@link CameraCharacteristics#STATISTICS_INFO_AVAILABLE_FACE_DETECT_MODES android.statistics.info.availableFaceDetectModes}</p> 3786 * <p>This key is available on all devices.</p> 3787 * 3788 * @see CameraCharacteristics#STATISTICS_INFO_AVAILABLE_FACE_DETECT_MODES 3789 * @see #STATISTICS_FACE_DETECT_MODE_OFF 3790 * @see #STATISTICS_FACE_DETECT_MODE_SIMPLE 3791 * @see #STATISTICS_FACE_DETECT_MODE_FULL 3792 */ 3793 @PublicKey 3794 @NonNull 3795 public static final Key<Integer> STATISTICS_FACE_DETECT_MODE = 3796 new Key<Integer>("android.statistics.faceDetectMode", int.class); 3797 3798 /** 3799 * <p>List of unique IDs for detected faces.</p> 3800 * <p>Each detected face is given a unique ID that is valid for as long as the face is visible 3801 * to the camera device. A face that leaves the field of view and later returns may be 3802 * assigned a new ID.</p> 3803 * <p>Only available if {@link CaptureRequest#STATISTICS_FACE_DETECT_MODE android.statistics.faceDetectMode} == FULL 3804 * This key is available on all devices.</p> 3805 * 3806 * @see CaptureRequest#STATISTICS_FACE_DETECT_MODE 3807 * @hide 3808 */ 3809 public static final Key<int[]> STATISTICS_FACE_IDS = 3810 new Key<int[]>("android.statistics.faceIds", int[].class); 3811 3812 /** 3813 * <p>List of landmarks for detected 3814 * faces.</p> 3815 * <p>For devices not supporting {@link CaptureRequest#DISTORTION_CORRECTION_MODE android.distortionCorrection.mode} control, the coordinate 3816 * system always follows that of {@link CameraCharacteristics#SENSOR_INFO_ACTIVE_ARRAY_SIZE android.sensor.info.activeArraySize}, with <code>(0, 0)</code> being 3817 * the top-left pixel of the active array.</p> 3818 * <p>For devices supporting {@link CaptureRequest#DISTORTION_CORRECTION_MODE android.distortionCorrection.mode} control, the coordinate 3819 * system depends on the mode being set. 3820 * When the distortion correction mode is OFF, the coordinate system follows 3821 * {@link CameraCharacteristics#SENSOR_INFO_PRE_CORRECTION_ACTIVE_ARRAY_SIZE android.sensor.info.preCorrectionActiveArraySize}, with 3822 * <code>(0, 0)</code> being the top-left pixel of the pre-correction active array. 3823 * When the distortion correction mode is not OFF, the coordinate system follows 3824 * {@link CameraCharacteristics#SENSOR_INFO_ACTIVE_ARRAY_SIZE android.sensor.info.activeArraySize}, with 3825 * <code>(0, 0)</code> being the top-left pixel of the active array.</p> 3826 * <p>Only available if {@link CaptureRequest#STATISTICS_FACE_DETECT_MODE android.statistics.faceDetectMode} == FULL 3827 * This key is available on all devices.</p> 3828 * 3829 * @see CaptureRequest#DISTORTION_CORRECTION_MODE 3830 * @see CameraCharacteristics#SENSOR_INFO_ACTIVE_ARRAY_SIZE 3831 * @see CameraCharacteristics#SENSOR_INFO_PRE_CORRECTION_ACTIVE_ARRAY_SIZE 3832 * @see CaptureRequest#STATISTICS_FACE_DETECT_MODE 3833 * @hide 3834 */ 3835 public static final Key<int[]> STATISTICS_FACE_LANDMARKS = 3836 new Key<int[]>("android.statistics.faceLandmarks", int[].class); 3837 3838 /** 3839 * <p>List of the bounding rectangles for detected 3840 * faces.</p> 3841 * <p>For devices not supporting {@link CaptureRequest#DISTORTION_CORRECTION_MODE android.distortionCorrection.mode} control, the coordinate 3842 * system always follows that of {@link CameraCharacteristics#SENSOR_INFO_ACTIVE_ARRAY_SIZE android.sensor.info.activeArraySize}, with <code>(0, 0)</code> being 3843 * the top-left pixel of the active array.</p> 3844 * <p>For devices supporting {@link CaptureRequest#DISTORTION_CORRECTION_MODE android.distortionCorrection.mode} control, the coordinate 3845 * system depends on the mode being set. 3846 * When the distortion correction mode is OFF, the coordinate system follows 3847 * {@link CameraCharacteristics#SENSOR_INFO_PRE_CORRECTION_ACTIVE_ARRAY_SIZE android.sensor.info.preCorrectionActiveArraySize}, with 3848 * <code>(0, 0)</code> being the top-left pixel of the pre-correction active array. 3849 * When the distortion correction mode is not OFF, the coordinate system follows 3850 * {@link CameraCharacteristics#SENSOR_INFO_ACTIVE_ARRAY_SIZE android.sensor.info.activeArraySize}, with 3851 * <code>(0, 0)</code> being the top-left pixel of the active array.</p> 3852 * <p>Only available if {@link CaptureRequest#STATISTICS_FACE_DETECT_MODE android.statistics.faceDetectMode} != OFF 3853 * This key is available on all devices.</p> 3854 * 3855 * @see CaptureRequest#DISTORTION_CORRECTION_MODE 3856 * @see CameraCharacteristics#SENSOR_INFO_ACTIVE_ARRAY_SIZE 3857 * @see CameraCharacteristics#SENSOR_INFO_PRE_CORRECTION_ACTIVE_ARRAY_SIZE 3858 * @see CaptureRequest#STATISTICS_FACE_DETECT_MODE 3859 * @hide 3860 */ 3861 public static final Key<android.graphics.Rect[]> STATISTICS_FACE_RECTANGLES = 3862 new Key<android.graphics.Rect[]>("android.statistics.faceRectangles", android.graphics.Rect[].class); 3863 3864 /** 3865 * <p>List of the face confidence scores for 3866 * detected faces</p> 3867 * <p>Only available if {@link CaptureRequest#STATISTICS_FACE_DETECT_MODE android.statistics.faceDetectMode} != OFF.</p> 3868 * <p><b>Range of valid values:</b><br> 3869 * 1-100</p> 3870 * <p>This key is available on all devices.</p> 3871 * 3872 * @see CaptureRequest#STATISTICS_FACE_DETECT_MODE 3873 * @hide 3874 */ 3875 public static final Key<byte[]> STATISTICS_FACE_SCORES = 3876 new Key<byte[]>("android.statistics.faceScores", byte[].class); 3877 3878 /** 3879 * <p>List of the faces detected through camera face detection 3880 * in this capture.</p> 3881 * <p>Only available if {@link CaptureRequest#STATISTICS_FACE_DETECT_MODE android.statistics.faceDetectMode} <code>!=</code> OFF.</p> 3882 * <p>This key is available on all devices.</p> 3883 * 3884 * @see CaptureRequest#STATISTICS_FACE_DETECT_MODE 3885 */ 3886 @PublicKey 3887 @NonNull 3888 @SyntheticKey 3889 public static final Key<android.hardware.camera2.params.Face[]> STATISTICS_FACES = 3890 new Key<android.hardware.camera2.params.Face[]>("android.statistics.faces", android.hardware.camera2.params.Face[].class); 3891 3892 /** 3893 * <p>The shading map is a low-resolution floating-point map 3894 * that lists the coefficients used to correct for vignetting, for each 3895 * Bayer color channel.</p> 3896 * <p>The map provided here is the same map that is used by the camera device to 3897 * correct both color shading and vignetting for output non-RAW images.</p> 3898 * <p>When there is no lens shading correction applied to RAW 3899 * output images ({@link CameraCharacteristics#SENSOR_INFO_LENS_SHADING_APPLIED android.sensor.info.lensShadingApplied} <code>==</code> 3900 * false), this map is the complete lens shading correction 3901 * map; when there is some lens shading correction applied to 3902 * the RAW output image ({@link CameraCharacteristics#SENSOR_INFO_LENS_SHADING_APPLIED android.sensor.info.lensShadingApplied}<code>==</code> true), this map reports the remaining lens shading 3903 * correction map that needs to be applied to get shading 3904 * corrected images that match the camera device's output for 3905 * non-RAW formats.</p> 3906 * <p>For a complete shading correction map, the least shaded 3907 * section of the image will have a gain factor of 1; all 3908 * other sections will have gains above 1.</p> 3909 * <p>When {@link CaptureRequest#COLOR_CORRECTION_MODE android.colorCorrection.mode} = TRANSFORM_MATRIX, the map 3910 * will take into account the colorCorrection settings.</p> 3911 * <p>The shading map is for the entire active pixel array, and is not 3912 * affected by the crop region specified in the request. Each shading map 3913 * entry is the value of the shading compensation map over a specific 3914 * pixel on the sensor. Specifically, with a (N x M) resolution shading 3915 * map, and an active pixel array size (W x H), shading map entry 3916 * (x,y) ϵ (0 ... N-1, 0 ... M-1) is the value of the shading map at 3917 * pixel ( ((W-1)/(N-1)) * x, ((H-1)/(M-1)) * y) for the four color channels. 3918 * The map is assumed to be bilinearly interpolated between the sample points.</p> 3919 * <p>The channel order is [R, Geven, Godd, B], where Geven is the green 3920 * channel for the even rows of a Bayer pattern, and Godd is the odd rows. 3921 * The shading map is stored in a fully interleaved format.</p> 3922 * <p>The shading map will generally have on the order of 30-40 rows and columns, 3923 * and will be smaller than 64x64.</p> 3924 * <p>As an example, given a very small map defined as:</p> 3925 * <pre><code>width,height = [ 4, 3 ] 3926 * values = 3927 * [ 1.3, 1.2, 1.15, 1.2, 1.2, 1.2, 1.15, 1.2, 3928 * 1.1, 1.2, 1.2, 1.2, 1.3, 1.2, 1.3, 1.3, 3929 * 1.2, 1.2, 1.25, 1.1, 1.1, 1.1, 1.1, 1.0, 3930 * 1.0, 1.0, 1.0, 1.0, 1.2, 1.3, 1.25, 1.2, 3931 * 1.3, 1.2, 1.2, 1.3, 1.2, 1.15, 1.1, 1.2, 3932 * 1.2, 1.1, 1.0, 1.2, 1.3, 1.15, 1.2, 1.3 ] 3933 * </code></pre> 3934 * <p>The low-resolution scaling map images for each channel are 3935 * (displayed using nearest-neighbor interpolation):</p> 3936 * <p><img alt="Red lens shading map" src="/reference/images/camera2/metadata/android.statistics.lensShadingMap/red_shading.png" /> 3937 * <img alt="Green (even rows) lens shading map" src="/reference/images/camera2/metadata/android.statistics.lensShadingMap/green_e_shading.png" /> 3938 * <img alt="Green (odd rows) lens shading map" src="/reference/images/camera2/metadata/android.statistics.lensShadingMap/green_o_shading.png" /> 3939 * <img alt="Blue lens shading map" src="/reference/images/camera2/metadata/android.statistics.lensShadingMap/blue_shading.png" /></p> 3940 * <p>As a visualization only, inverting the full-color map to recover an 3941 * image of a gray wall (using bicubic interpolation for visual quality) as captured by the sensor gives:</p> 3942 * <p><img alt="Image of a uniform white wall (inverse shading map)" src="/reference/images/camera2/metadata/android.statistics.lensShadingMap/inv_shading.png" /></p> 3943 * <p>For a MONOCHROME camera, all of the 2x2 channels must have the same values. An example 3944 * shading map for such a camera is defined as:</p> 3945 * <pre><code>android.lens.info.shadingMapSize = [ 4, 3 ] 3946 * android.statistics.lensShadingMap = 3947 * [ 1.3, 1.3, 1.3, 1.3, 1.2, 1.2, 1.2, 1.2, 3948 * 1.1, 1.1, 1.1, 1.1, 1.3, 1.3, 1.3, 1.3, 3949 * 1.2, 1.2, 1.2, 1.2, 1.1, 1.1, 1.1, 1.1, 3950 * 1.0, 1.0, 1.0, 1.0, 1.2, 1.2, 1.2, 1.2, 3951 * 1.3, 1.3, 1.3, 1.3, 1.2, 1.2, 1.2, 1.2, 3952 * 1.2, 1.2, 1.2, 1.2, 1.3, 1.3, 1.3, 1.3 ] 3953 * </code></pre> 3954 * <p><b>Range of valid values:</b><br> 3955 * Each gain factor is >= 1</p> 3956 * <p><b>Optional</b> - The value for this key may be {@code null} on some devices.</p> 3957 * <p><b>Full capability</b> - 3958 * Present on all camera devices that report being {@link CameraCharacteristics#INFO_SUPPORTED_HARDWARE_LEVEL_FULL HARDWARE_LEVEL_FULL} devices in the 3959 * {@link CameraCharacteristics#INFO_SUPPORTED_HARDWARE_LEVEL android.info.supportedHardwareLevel} key</p> 3960 * 3961 * @see CaptureRequest#COLOR_CORRECTION_MODE 3962 * @see CameraCharacteristics#INFO_SUPPORTED_HARDWARE_LEVEL 3963 * @see CameraCharacteristics#SENSOR_INFO_LENS_SHADING_APPLIED 3964 */ 3965 @PublicKey 3966 @NonNull 3967 public static final Key<android.hardware.camera2.params.LensShadingMap> STATISTICS_LENS_SHADING_CORRECTION_MAP = 3968 new Key<android.hardware.camera2.params.LensShadingMap>("android.statistics.lensShadingCorrectionMap", android.hardware.camera2.params.LensShadingMap.class); 3969 3970 /** 3971 * <p>The shading map is a low-resolution floating-point map 3972 * that lists the coefficients used to correct for vignetting and color shading, 3973 * for each Bayer color channel of RAW image data.</p> 3974 * <p>The map provided here is the same map that is used by the camera device to 3975 * correct both color shading and vignetting for output non-RAW images.</p> 3976 * <p>When there is no lens shading correction applied to RAW 3977 * output images ({@link CameraCharacteristics#SENSOR_INFO_LENS_SHADING_APPLIED android.sensor.info.lensShadingApplied} <code>==</code> 3978 * false), this map is the complete lens shading correction 3979 * map; when there is some lens shading correction applied to 3980 * the RAW output image ({@link CameraCharacteristics#SENSOR_INFO_LENS_SHADING_APPLIED android.sensor.info.lensShadingApplied}<code>==</code> true), this map reports the remaining lens shading 3981 * correction map that needs to be applied to get shading 3982 * corrected images that match the camera device's output for 3983 * non-RAW formats.</p> 3984 * <p>For a complete shading correction map, the least shaded 3985 * section of the image will have a gain factor of 1; all 3986 * other sections will have gains above 1.</p> 3987 * <p>When {@link CaptureRequest#COLOR_CORRECTION_MODE android.colorCorrection.mode} = TRANSFORM_MATRIX, the map 3988 * will take into account the colorCorrection settings.</p> 3989 * <p>The shading map is for the entire active pixel array, and is not 3990 * affected by the crop region specified in the request. Each shading map 3991 * entry is the value of the shading compensation map over a specific 3992 * pixel on the sensor. Specifically, with a (N x M) resolution shading 3993 * map, and an active pixel array size (W x H), shading map entry 3994 * (x,y) ϵ (0 ... N-1, 0 ... M-1) is the value of the shading map at 3995 * pixel ( ((W-1)/(N-1)) * x, ((H-1)/(M-1)) * y) for the four color channels. 3996 * The map is assumed to be bilinearly interpolated between the sample points.</p> 3997 * <p>For a Bayer camera, the channel order is [R, Geven, Godd, B], where Geven is 3998 * the green channel for the even rows of a Bayer pattern, and Godd is the odd rows. 3999 * The shading map is stored in a fully interleaved format, and its size 4000 * is provided in the camera static metadata by android.lens.info.shadingMapSize.</p> 4001 * <p>The shading map will generally have on the order of 30-40 rows and columns, 4002 * and will be smaller than 64x64.</p> 4003 * <p>As an example, given a very small map for a Bayer camera defined as:</p> 4004 * <pre><code>android.lens.info.shadingMapSize = [ 4, 3 ] 4005 * android.statistics.lensShadingMap = 4006 * [ 1.3, 1.2, 1.15, 1.2, 1.2, 1.2, 1.15, 1.2, 4007 * 1.1, 1.2, 1.2, 1.2, 1.3, 1.2, 1.3, 1.3, 4008 * 1.2, 1.2, 1.25, 1.1, 1.1, 1.1, 1.1, 1.0, 4009 * 1.0, 1.0, 1.0, 1.0, 1.2, 1.3, 1.25, 1.2, 4010 * 1.3, 1.2, 1.2, 1.3, 1.2, 1.15, 1.1, 1.2, 4011 * 1.2, 1.1, 1.0, 1.2, 1.3, 1.15, 1.2, 1.3 ] 4012 * </code></pre> 4013 * <p>The low-resolution scaling map images for each channel are 4014 * (displayed using nearest-neighbor interpolation):</p> 4015 * <p><img alt="Red lens shading map" src="/reference/images/camera2/metadata/android.statistics.lensShadingMap/red_shading.png" /> 4016 * <img alt="Green (even rows) lens shading map" src="/reference/images/camera2/metadata/android.statistics.lensShadingMap/green_e_shading.png" /> 4017 * <img alt="Green (odd rows) lens shading map" src="/reference/images/camera2/metadata/android.statistics.lensShadingMap/green_o_shading.png" /> 4018 * <img alt="Blue lens shading map" src="/reference/images/camera2/metadata/android.statistics.lensShadingMap/blue_shading.png" /></p> 4019 * <p>As a visualization only, inverting the full-color map to recover an 4020 * image of a gray wall (using bicubic interpolation for visual quality) 4021 * as captured by the sensor gives:</p> 4022 * <p><img alt="Image of a uniform white wall (inverse shading map)" src="/reference/images/camera2/metadata/android.statistics.lensShadingMap/inv_shading.png" /></p> 4023 * <p>For a MONOCHROME camera, all of the 2x2 channels must have the same values. An example 4024 * shading map for such a camera is defined as:</p> 4025 * <pre><code>android.lens.info.shadingMapSize = [ 4, 3 ] 4026 * android.statistics.lensShadingMap = 4027 * [ 1.3, 1.3, 1.3, 1.3, 1.2, 1.2, 1.2, 1.2, 4028 * 1.1, 1.1, 1.1, 1.1, 1.3, 1.3, 1.3, 1.3, 4029 * 1.2, 1.2, 1.2, 1.2, 1.1, 1.1, 1.1, 1.1, 4030 * 1.0, 1.0, 1.0, 1.0, 1.2, 1.2, 1.2, 1.2, 4031 * 1.3, 1.3, 1.3, 1.3, 1.2, 1.2, 1.2, 1.2, 4032 * 1.2, 1.2, 1.2, 1.2, 1.3, 1.3, 1.3, 1.3 ] 4033 * </code></pre> 4034 * <p>Note that the RAW image data might be subject to lens shading 4035 * correction not reported on this map. Query 4036 * {@link CameraCharacteristics#SENSOR_INFO_LENS_SHADING_APPLIED android.sensor.info.lensShadingApplied} to see if RAW image data has subject 4037 * to lens shading correction. If {@link CameraCharacteristics#SENSOR_INFO_LENS_SHADING_APPLIED android.sensor.info.lensShadingApplied} 4038 * is TRUE, the RAW image data is subject to partial or full lens shading 4039 * correction. In the case full lens shading correction is applied to RAW 4040 * images, the gain factor map reported in this key will contain all 1.0 gains. 4041 * In other words, the map reported in this key is the remaining lens shading 4042 * that needs to be applied on the RAW image to get images without lens shading 4043 * artifacts. See {@link CameraCharacteristics#REQUEST_MAX_NUM_OUTPUT_RAW android.request.maxNumOutputRaw} for a list of RAW image 4044 * formats.</p> 4045 * <p><b>Range of valid values:</b><br> 4046 * Each gain factor is >= 1</p> 4047 * <p><b>Optional</b> - The value for this key may be {@code null} on some devices.</p> 4048 * <p><b>Full capability</b> - 4049 * Present on all camera devices that report being {@link CameraCharacteristics#INFO_SUPPORTED_HARDWARE_LEVEL_FULL HARDWARE_LEVEL_FULL} devices in the 4050 * {@link CameraCharacteristics#INFO_SUPPORTED_HARDWARE_LEVEL android.info.supportedHardwareLevel} key</p> 4051 * 4052 * @see CaptureRequest#COLOR_CORRECTION_MODE 4053 * @see CameraCharacteristics#INFO_SUPPORTED_HARDWARE_LEVEL 4054 * @see CameraCharacteristics#REQUEST_MAX_NUM_OUTPUT_RAW 4055 * @see CameraCharacteristics#SENSOR_INFO_LENS_SHADING_APPLIED 4056 * @hide 4057 */ 4058 public static final Key<float[]> STATISTICS_LENS_SHADING_MAP = 4059 new Key<float[]>("android.statistics.lensShadingMap", float[].class); 4060 4061 /** 4062 * <p>The best-fit color channel gains calculated 4063 * by the camera device's statistics units for the current output frame.</p> 4064 * <p>This may be different than the gains used for this frame, 4065 * since statistics processing on data from a new frame 4066 * typically completes after the transform has already been 4067 * applied to that frame.</p> 4068 * <p>The 4 channel gains are defined in Bayer domain, 4069 * see {@link CaptureRequest#COLOR_CORRECTION_GAINS android.colorCorrection.gains} for details.</p> 4070 * <p>This value should always be calculated by the auto-white balance (AWB) block, 4071 * regardless of the android.control.* current values.</p> 4072 * <p><b>Optional</b> - The value for this key may be {@code null} on some devices.</p> 4073 * 4074 * @see CaptureRequest#COLOR_CORRECTION_GAINS 4075 * @deprecated 4076 * <p>Never fully implemented or specified; do not use</p> 4077 4078 * @hide 4079 */ 4080 @Deprecated 4081 public static final Key<float[]> STATISTICS_PREDICTED_COLOR_GAINS = 4082 new Key<float[]>("android.statistics.predictedColorGains", float[].class); 4083 4084 /** 4085 * <p>The best-fit color transform matrix estimate 4086 * calculated by the camera device's statistics units for the current 4087 * output frame.</p> 4088 * <p>The camera device will provide the estimate from its 4089 * statistics unit on the white balance transforms to use 4090 * for the next frame. These are the values the camera device believes 4091 * are the best fit for the current output frame. This may 4092 * be different than the transform used for this frame, since 4093 * statistics processing on data from a new frame typically 4094 * completes after the transform has already been applied to 4095 * that frame.</p> 4096 * <p>These estimates must be provided for all frames, even if 4097 * capture settings and color transforms are set by the application.</p> 4098 * <p>This value should always be calculated by the auto-white balance (AWB) block, 4099 * regardless of the android.control.* current values.</p> 4100 * <p><b>Optional</b> - The value for this key may be {@code null} on some devices.</p> 4101 * @deprecated 4102 * <p>Never fully implemented or specified; do not use</p> 4103 4104 * @hide 4105 */ 4106 @Deprecated 4107 public static final Key<Rational[]> STATISTICS_PREDICTED_COLOR_TRANSFORM = 4108 new Key<Rational[]>("android.statistics.predictedColorTransform", Rational[].class); 4109 4110 /** 4111 * <p>The camera device estimated scene illumination lighting 4112 * frequency.</p> 4113 * <p>Many light sources, such as most fluorescent lights, flicker at a rate 4114 * that depends on the local utility power standards. This flicker must be 4115 * accounted for by auto-exposure routines to avoid artifacts in captured images. 4116 * The camera device uses this entry to tell the application what the scene 4117 * illuminant frequency is.</p> 4118 * <p>When manual exposure control is enabled 4119 * (<code>{@link CaptureRequest#CONTROL_AE_MODE android.control.aeMode} == OFF</code> or <code>{@link CaptureRequest#CONTROL_MODE android.control.mode} == 4120 * OFF</code>), the {@link CaptureRequest#CONTROL_AE_ANTIBANDING_MODE android.control.aeAntibandingMode} doesn't perform 4121 * antibanding, and the application can ensure it selects 4122 * exposure times that do not cause banding issues by looking 4123 * into this metadata field. See 4124 * {@link CaptureRequest#CONTROL_AE_ANTIBANDING_MODE android.control.aeAntibandingMode} for more details.</p> 4125 * <p>Reports NONE if there doesn't appear to be flickering illumination.</p> 4126 * <p><b>Possible values:</b> 4127 * <ul> 4128 * <li>{@link #STATISTICS_SCENE_FLICKER_NONE NONE}</li> 4129 * <li>{@link #STATISTICS_SCENE_FLICKER_50HZ 50HZ}</li> 4130 * <li>{@link #STATISTICS_SCENE_FLICKER_60HZ 60HZ}</li> 4131 * </ul></p> 4132 * <p><b>Optional</b> - The value for this key may be {@code null} on some devices.</p> 4133 * <p><b>Full capability</b> - 4134 * Present on all camera devices that report being {@link CameraCharacteristics#INFO_SUPPORTED_HARDWARE_LEVEL_FULL HARDWARE_LEVEL_FULL} devices in the 4135 * {@link CameraCharacteristics#INFO_SUPPORTED_HARDWARE_LEVEL android.info.supportedHardwareLevel} key</p> 4136 * 4137 * @see CaptureRequest#CONTROL_AE_ANTIBANDING_MODE 4138 * @see CaptureRequest#CONTROL_AE_MODE 4139 * @see CaptureRequest#CONTROL_MODE 4140 * @see CameraCharacteristics#INFO_SUPPORTED_HARDWARE_LEVEL 4141 * @see #STATISTICS_SCENE_FLICKER_NONE 4142 * @see #STATISTICS_SCENE_FLICKER_50HZ 4143 * @see #STATISTICS_SCENE_FLICKER_60HZ 4144 */ 4145 @PublicKey 4146 @NonNull 4147 public static final Key<Integer> STATISTICS_SCENE_FLICKER = 4148 new Key<Integer>("android.statistics.sceneFlicker", int.class); 4149 4150 /** 4151 * <p>Operating mode for hot pixel map generation.</p> 4152 * <p>If set to <code>true</code>, a hot pixel map is returned in {@link CaptureResult#STATISTICS_HOT_PIXEL_MAP android.statistics.hotPixelMap}. 4153 * If set to <code>false</code>, no hot pixel map will be returned.</p> 4154 * <p><b>Range of valid values:</b><br> 4155 * {@link CameraCharacteristics#STATISTICS_INFO_AVAILABLE_HOT_PIXEL_MAP_MODES android.statistics.info.availableHotPixelMapModes}</p> 4156 * <p><b>Optional</b> - The value for this key may be {@code null} on some devices.</p> 4157 * 4158 * @see CaptureResult#STATISTICS_HOT_PIXEL_MAP 4159 * @see CameraCharacteristics#STATISTICS_INFO_AVAILABLE_HOT_PIXEL_MAP_MODES 4160 */ 4161 @PublicKey 4162 @NonNull 4163 public static final Key<Boolean> STATISTICS_HOT_PIXEL_MAP_MODE = 4164 new Key<Boolean>("android.statistics.hotPixelMapMode", boolean.class); 4165 4166 /** 4167 * <p>List of <code>(x, y)</code> coordinates of hot/defective pixels on the sensor.</p> 4168 * <p>A coordinate <code>(x, y)</code> must lie between <code>(0, 0)</code>, and 4169 * <code>(width - 1, height - 1)</code> (inclusive), which are the top-left and 4170 * bottom-right of the pixel array, respectively. The width and 4171 * height dimensions are given in {@link CameraCharacteristics#SENSOR_INFO_PIXEL_ARRAY_SIZE android.sensor.info.pixelArraySize}. 4172 * This may include hot pixels that lie outside of the active array 4173 * bounds given by {@link CameraCharacteristics#SENSOR_INFO_ACTIVE_ARRAY_SIZE android.sensor.info.activeArraySize}.</p> 4174 * <p><b>Range of valid values:</b><br></p> 4175 * <p>n <= number of pixels on the sensor. 4176 * The <code>(x, y)</code> coordinates must be bounded by 4177 * {@link CameraCharacteristics#SENSOR_INFO_PIXEL_ARRAY_SIZE android.sensor.info.pixelArraySize}.</p> 4178 * <p><b>Optional</b> - The value for this key may be {@code null} on some devices.</p> 4179 * 4180 * @see CameraCharacteristics#SENSOR_INFO_ACTIVE_ARRAY_SIZE 4181 * @see CameraCharacteristics#SENSOR_INFO_PIXEL_ARRAY_SIZE 4182 */ 4183 @PublicKey 4184 @NonNull 4185 public static final Key<android.graphics.Point[]> STATISTICS_HOT_PIXEL_MAP = 4186 new Key<android.graphics.Point[]>("android.statistics.hotPixelMap", android.graphics.Point[].class); 4187 4188 /** 4189 * <p>Whether the camera device will output the lens 4190 * shading map in output result metadata.</p> 4191 * <p>When set to ON, 4192 * android.statistics.lensShadingMap will be provided in 4193 * the output result metadata.</p> 4194 * <p>ON is always supported on devices with the RAW capability.</p> 4195 * <p><b>Possible values:</b> 4196 * <ul> 4197 * <li>{@link #STATISTICS_LENS_SHADING_MAP_MODE_OFF OFF}</li> 4198 * <li>{@link #STATISTICS_LENS_SHADING_MAP_MODE_ON ON}</li> 4199 * </ul></p> 4200 * <p><b>Available values for this device:</b><br> 4201 * {@link CameraCharacteristics#STATISTICS_INFO_AVAILABLE_LENS_SHADING_MAP_MODES android.statistics.info.availableLensShadingMapModes}</p> 4202 * <p><b>Optional</b> - The value for this key may be {@code null} on some devices.</p> 4203 * <p><b>Full capability</b> - 4204 * Present on all camera devices that report being {@link CameraCharacteristics#INFO_SUPPORTED_HARDWARE_LEVEL_FULL HARDWARE_LEVEL_FULL} devices in the 4205 * {@link CameraCharacteristics#INFO_SUPPORTED_HARDWARE_LEVEL android.info.supportedHardwareLevel} key</p> 4206 * 4207 * @see CameraCharacteristics#INFO_SUPPORTED_HARDWARE_LEVEL 4208 * @see CameraCharacteristics#STATISTICS_INFO_AVAILABLE_LENS_SHADING_MAP_MODES 4209 * @see #STATISTICS_LENS_SHADING_MAP_MODE_OFF 4210 * @see #STATISTICS_LENS_SHADING_MAP_MODE_ON 4211 */ 4212 @PublicKey 4213 @NonNull 4214 public static final Key<Integer> STATISTICS_LENS_SHADING_MAP_MODE = 4215 new Key<Integer>("android.statistics.lensShadingMapMode", int.class); 4216 4217 /** 4218 * <p>A control for selecting whether optical stabilization (OIS) position 4219 * information is included in output result metadata.</p> 4220 * <p>Since optical image stabilization generally involves motion much faster than the duration 4221 * of individualq image exposure, multiple OIS samples can be included for a single capture 4222 * result. For example, if the OIS reporting operates at 200 Hz, a typical camera operating 4223 * at 30fps may have 6-7 OIS samples per capture result. This information can be combined 4224 * with the rolling shutter skew to account for lens motion during image exposure in 4225 * post-processing algorithms.</p> 4226 * <p><b>Possible values:</b> 4227 * <ul> 4228 * <li>{@link #STATISTICS_OIS_DATA_MODE_OFF OFF}</li> 4229 * <li>{@link #STATISTICS_OIS_DATA_MODE_ON ON}</li> 4230 * </ul></p> 4231 * <p><b>Available values for this device:</b><br> 4232 * {@link CameraCharacteristics#STATISTICS_INFO_AVAILABLE_OIS_DATA_MODES android.statistics.info.availableOisDataModes}</p> 4233 * <p><b>Optional</b> - The value for this key may be {@code null} on some devices.</p> 4234 * 4235 * @see CameraCharacteristics#STATISTICS_INFO_AVAILABLE_OIS_DATA_MODES 4236 * @see #STATISTICS_OIS_DATA_MODE_OFF 4237 * @see #STATISTICS_OIS_DATA_MODE_ON 4238 */ 4239 @PublicKey 4240 @NonNull 4241 public static final Key<Integer> STATISTICS_OIS_DATA_MODE = 4242 new Key<Integer>("android.statistics.oisDataMode", int.class); 4243 4244 /** 4245 * <p>An array of timestamps of OIS samples, in nanoseconds.</p> 4246 * <p>The array contains the timestamps of OIS samples. The timestamps are in the same 4247 * timebase as and comparable to {@link CaptureResult#SENSOR_TIMESTAMP android.sensor.timestamp}.</p> 4248 * <p><b>Units</b>: nanoseconds</p> 4249 * <p><b>Optional</b> - The value for this key may be {@code null} on some devices.</p> 4250 * 4251 * @see CaptureResult#SENSOR_TIMESTAMP 4252 * @hide 4253 */ 4254 public static final Key<long[]> STATISTICS_OIS_TIMESTAMPS = 4255 new Key<long[]>("android.statistics.oisTimestamps", long[].class); 4256 4257 /** 4258 * <p>An array of shifts of OIS samples, in x direction.</p> 4259 * <p>The array contains the amount of shifts in x direction, in pixels, based on OIS samples. 4260 * A positive value is a shift from left to right in the pre-correction active array 4261 * coordinate system. For example, if the optical center is (1000, 500) in pre-correction 4262 * active array coordinates, a shift of (3, 0) puts the new optical center at (1003, 500).</p> 4263 * <p>The number of shifts must match the number of timestamps in 4264 * android.statistics.oisTimestamps.</p> 4265 * <p>The OIS samples are not affected by whether lens distortion correction is enabled (on 4266 * supporting devices). They are always reported in pre-correction active array coordinates, 4267 * since the scaling of OIS shifts would depend on the specific spot on the sensor the shift 4268 * is needed.</p> 4269 * <p><b>Units</b>: Pixels in active array.</p> 4270 * <p><b>Optional</b> - The value for this key may be {@code null} on some devices.</p> 4271 * @hide 4272 */ 4273 public static final Key<float[]> STATISTICS_OIS_X_SHIFTS = 4274 new Key<float[]>("android.statistics.oisXShifts", float[].class); 4275 4276 /** 4277 * <p>An array of shifts of OIS samples, in y direction.</p> 4278 * <p>The array contains the amount of shifts in y direction, in pixels, based on OIS samples. 4279 * A positive value is a shift from top to bottom in pre-correction active array coordinate 4280 * system. For example, if the optical center is (1000, 500) in active array coordinates, a 4281 * shift of (0, 5) puts the new optical center at (1000, 505).</p> 4282 * <p>The number of shifts must match the number of timestamps in 4283 * android.statistics.oisTimestamps.</p> 4284 * <p>The OIS samples are not affected by whether lens distortion correction is enabled (on 4285 * supporting devices). They are always reported in pre-correction active array coordinates, 4286 * since the scaling of OIS shifts would depend on the specific spot on the sensor the shift 4287 * is needed.</p> 4288 * <p><b>Units</b>: Pixels in active array.</p> 4289 * <p><b>Optional</b> - The value for this key may be {@code null} on some devices.</p> 4290 * @hide 4291 */ 4292 public static final Key<float[]> STATISTICS_OIS_Y_SHIFTS = 4293 new Key<float[]>("android.statistics.oisYShifts", float[].class); 4294 4295 /** 4296 * <p>An array of optical stabilization (OIS) position samples.</p> 4297 * <p>Each OIS sample contains the timestamp and the amount of shifts in x and y direction, 4298 * in pixels, of the OIS sample.</p> 4299 * <p>A positive value for a shift in x direction is a shift from left to right in the 4300 * pre-correction active array coordinate system. For example, if the optical center is 4301 * (1000, 500) in pre-correction active array coordinates, a shift of (3, 0) puts the new 4302 * optical center at (1003, 500).</p> 4303 * <p>A positive value for a shift in y direction is a shift from top to bottom in 4304 * pre-correction active array coordinate system. For example, if the optical center is 4305 * (1000, 500) in active array coordinates, a shift of (0, 5) puts the new optical center at 4306 * (1000, 505).</p> 4307 * <p>The OIS samples are not affected by whether lens distortion correction is enabled (on 4308 * supporting devices). They are always reported in pre-correction active array coordinates, 4309 * since the scaling of OIS shifts would depend on the specific spot on the sensor the shift 4310 * is needed.</p> 4311 * <p><b>Optional</b> - The value for this key may be {@code null} on some devices.</p> 4312 */ 4313 @PublicKey 4314 @NonNull 4315 @SyntheticKey 4316 public static final Key<android.hardware.camera2.params.OisSample[]> STATISTICS_OIS_SAMPLES = 4317 new Key<android.hardware.camera2.params.OisSample[]>("android.statistics.oisSamples", android.hardware.camera2.params.OisSample[].class); 4318 4319 /** 4320 * <p>Tonemapping / contrast / gamma curve for the blue 4321 * channel, to use when {@link CaptureRequest#TONEMAP_MODE android.tonemap.mode} is 4322 * CONTRAST_CURVE.</p> 4323 * <p>See android.tonemap.curveRed for more details.</p> 4324 * <p><b>Optional</b> - The value for this key may be {@code null} on some devices.</p> 4325 * <p><b>Full capability</b> - 4326 * Present on all camera devices that report being {@link CameraCharacteristics#INFO_SUPPORTED_HARDWARE_LEVEL_FULL HARDWARE_LEVEL_FULL} devices in the 4327 * {@link CameraCharacteristics#INFO_SUPPORTED_HARDWARE_LEVEL android.info.supportedHardwareLevel} key</p> 4328 * 4329 * @see CameraCharacteristics#INFO_SUPPORTED_HARDWARE_LEVEL 4330 * @see CaptureRequest#TONEMAP_MODE 4331 * @hide 4332 */ 4333 public static final Key<float[]> TONEMAP_CURVE_BLUE = 4334 new Key<float[]>("android.tonemap.curveBlue", float[].class); 4335 4336 /** 4337 * <p>Tonemapping / contrast / gamma curve for the green 4338 * channel, to use when {@link CaptureRequest#TONEMAP_MODE android.tonemap.mode} is 4339 * CONTRAST_CURVE.</p> 4340 * <p>See android.tonemap.curveRed for more details.</p> 4341 * <p><b>Optional</b> - The value for this key may be {@code null} on some devices.</p> 4342 * <p><b>Full capability</b> - 4343 * Present on all camera devices that report being {@link CameraCharacteristics#INFO_SUPPORTED_HARDWARE_LEVEL_FULL HARDWARE_LEVEL_FULL} devices in the 4344 * {@link CameraCharacteristics#INFO_SUPPORTED_HARDWARE_LEVEL android.info.supportedHardwareLevel} key</p> 4345 * 4346 * @see CameraCharacteristics#INFO_SUPPORTED_HARDWARE_LEVEL 4347 * @see CaptureRequest#TONEMAP_MODE 4348 * @hide 4349 */ 4350 public static final Key<float[]> TONEMAP_CURVE_GREEN = 4351 new Key<float[]>("android.tonemap.curveGreen", float[].class); 4352 4353 /** 4354 * <p>Tonemapping / contrast / gamma curve for the red 4355 * channel, to use when {@link CaptureRequest#TONEMAP_MODE android.tonemap.mode} is 4356 * CONTRAST_CURVE.</p> 4357 * <p>Each channel's curve is defined by an array of control points:</p> 4358 * <pre><code>android.tonemap.curveRed = 4359 * [ P0in, P0out, P1in, P1out, P2in, P2out, P3in, P3out, ..., PNin, PNout ] 4360 * 2 <= N <= {@link CameraCharacteristics#TONEMAP_MAX_CURVE_POINTS android.tonemap.maxCurvePoints}</code></pre> 4361 * <p>These are sorted in order of increasing <code>Pin</code>; it is 4362 * required that input values 0.0 and 1.0 are included in the list to 4363 * define a complete mapping. For input values between control points, 4364 * the camera device must linearly interpolate between the control 4365 * points.</p> 4366 * <p>Each curve can have an independent number of points, and the number 4367 * of points can be less than max (that is, the request doesn't have to 4368 * always provide a curve with number of points equivalent to 4369 * {@link CameraCharacteristics#TONEMAP_MAX_CURVE_POINTS android.tonemap.maxCurvePoints}).</p> 4370 * <p>For devices with MONOCHROME capability, all three channels must have the same set of 4371 * control points.</p> 4372 * <p>A few examples, and their corresponding graphical mappings; these 4373 * only specify the red channel and the precision is limited to 4 4374 * digits, for conciseness.</p> 4375 * <p>Linear mapping:</p> 4376 * <pre><code>android.tonemap.curveRed = [ 0, 0, 1.0, 1.0 ] 4377 * </code></pre> 4378 * <p><img alt="Linear mapping curve" src="/reference/images/camera2/metadata/android.tonemap.curveRed/linear_tonemap.png" /></p> 4379 * <p>Invert mapping:</p> 4380 * <pre><code>android.tonemap.curveRed = [ 0, 1.0, 1.0, 0 ] 4381 * </code></pre> 4382 * <p><img alt="Inverting mapping curve" src="/reference/images/camera2/metadata/android.tonemap.curveRed/inverse_tonemap.png" /></p> 4383 * <p>Gamma 1/2.2 mapping, with 16 control points:</p> 4384 * <pre><code>android.tonemap.curveRed = [ 4385 * 0.0000, 0.0000, 0.0667, 0.2920, 0.1333, 0.4002, 0.2000, 0.4812, 4386 * 0.2667, 0.5484, 0.3333, 0.6069, 0.4000, 0.6594, 0.4667, 0.7072, 4387 * 0.5333, 0.7515, 0.6000, 0.7928, 0.6667, 0.8317, 0.7333, 0.8685, 4388 * 0.8000, 0.9035, 0.8667, 0.9370, 0.9333, 0.9691, 1.0000, 1.0000 ] 4389 * </code></pre> 4390 * <p><img alt="Gamma = 1/2.2 tonemapping curve" src="/reference/images/camera2/metadata/android.tonemap.curveRed/gamma_tonemap.png" /></p> 4391 * <p>Standard sRGB gamma mapping, per IEC 61966-2-1:1999, with 16 control points:</p> 4392 * <pre><code>android.tonemap.curveRed = [ 4393 * 0.0000, 0.0000, 0.0667, 0.2864, 0.1333, 0.4007, 0.2000, 0.4845, 4394 * 0.2667, 0.5532, 0.3333, 0.6125, 0.4000, 0.6652, 0.4667, 0.7130, 4395 * 0.5333, 0.7569, 0.6000, 0.7977, 0.6667, 0.8360, 0.7333, 0.8721, 4396 * 0.8000, 0.9063, 0.8667, 0.9389, 0.9333, 0.9701, 1.0000, 1.0000 ] 4397 * </code></pre> 4398 * <p><img alt="sRGB tonemapping curve" src="/reference/images/camera2/metadata/android.tonemap.curveRed/srgb_tonemap.png" /></p> 4399 * <p><b>Range of valid values:</b><br> 4400 * 0-1 on both input and output coordinates, normalized 4401 * as a floating-point value such that 0 == black and 1 == white.</p> 4402 * <p><b>Optional</b> - The value for this key may be {@code null} on some devices.</p> 4403 * <p><b>Full capability</b> - 4404 * Present on all camera devices that report being {@link CameraCharacteristics#INFO_SUPPORTED_HARDWARE_LEVEL_FULL HARDWARE_LEVEL_FULL} devices in the 4405 * {@link CameraCharacteristics#INFO_SUPPORTED_HARDWARE_LEVEL android.info.supportedHardwareLevel} key</p> 4406 * 4407 * @see CameraCharacteristics#INFO_SUPPORTED_HARDWARE_LEVEL 4408 * @see CameraCharacteristics#TONEMAP_MAX_CURVE_POINTS 4409 * @see CaptureRequest#TONEMAP_MODE 4410 * @hide 4411 */ 4412 public static final Key<float[]> TONEMAP_CURVE_RED = 4413 new Key<float[]>("android.tonemap.curveRed", float[].class); 4414 4415 /** 4416 * <p>Tonemapping / contrast / gamma curve to use when {@link CaptureRequest#TONEMAP_MODE android.tonemap.mode} 4417 * is CONTRAST_CURVE.</p> 4418 * <p>The tonemapCurve consist of three curves for each of red, green, and blue 4419 * channels respectively. The following example uses the red channel as an 4420 * example. The same logic applies to green and blue channel. 4421 * Each channel's curve is defined by an array of control points:</p> 4422 * <pre><code>curveRed = 4423 * [ P0(in, out), P1(in, out), P2(in, out), P3(in, out), ..., PN(in, out) ] 4424 * 2 <= N <= {@link CameraCharacteristics#TONEMAP_MAX_CURVE_POINTS android.tonemap.maxCurvePoints}</code></pre> 4425 * <p>These are sorted in order of increasing <code>Pin</code>; it is always 4426 * guaranteed that input values 0.0 and 1.0 are included in the list to 4427 * define a complete mapping. For input values between control points, 4428 * the camera device must linearly interpolate between the control 4429 * points.</p> 4430 * <p>Each curve can have an independent number of points, and the number 4431 * of points can be less than max (that is, the request doesn't have to 4432 * always provide a curve with number of points equivalent to 4433 * {@link CameraCharacteristics#TONEMAP_MAX_CURVE_POINTS android.tonemap.maxCurvePoints}).</p> 4434 * <p>For devices with MONOCHROME capability, all three channels must have the same set of 4435 * control points.</p> 4436 * <p>A few examples, and their corresponding graphical mappings; these 4437 * only specify the red channel and the precision is limited to 4 4438 * digits, for conciseness.</p> 4439 * <p>Linear mapping:</p> 4440 * <pre><code>curveRed = [ (0, 0), (1.0, 1.0) ] 4441 * </code></pre> 4442 * <p><img alt="Linear mapping curve" src="/reference/images/camera2/metadata/android.tonemap.curveRed/linear_tonemap.png" /></p> 4443 * <p>Invert mapping:</p> 4444 * <pre><code>curveRed = [ (0, 1.0), (1.0, 0) ] 4445 * </code></pre> 4446 * <p><img alt="Inverting mapping curve" src="/reference/images/camera2/metadata/android.tonemap.curveRed/inverse_tonemap.png" /></p> 4447 * <p>Gamma 1/2.2 mapping, with 16 control points:</p> 4448 * <pre><code>curveRed = [ 4449 * (0.0000, 0.0000), (0.0667, 0.2920), (0.1333, 0.4002), (0.2000, 0.4812), 4450 * (0.2667, 0.5484), (0.3333, 0.6069), (0.4000, 0.6594), (0.4667, 0.7072), 4451 * (0.5333, 0.7515), (0.6000, 0.7928), (0.6667, 0.8317), (0.7333, 0.8685), 4452 * (0.8000, 0.9035), (0.8667, 0.9370), (0.9333, 0.9691), (1.0000, 1.0000) ] 4453 * </code></pre> 4454 * <p><img alt="Gamma = 1/2.2 tonemapping curve" src="/reference/images/camera2/metadata/android.tonemap.curveRed/gamma_tonemap.png" /></p> 4455 * <p>Standard sRGB gamma mapping, per IEC 61966-2-1:1999, with 16 control points:</p> 4456 * <pre><code>curveRed = [ 4457 * (0.0000, 0.0000), (0.0667, 0.2864), (0.1333, 0.4007), (0.2000, 0.4845), 4458 * (0.2667, 0.5532), (0.3333, 0.6125), (0.4000, 0.6652), (0.4667, 0.7130), 4459 * (0.5333, 0.7569), (0.6000, 0.7977), (0.6667, 0.8360), (0.7333, 0.8721), 4460 * (0.8000, 0.9063), (0.8667, 0.9389), (0.9333, 0.9701), (1.0000, 1.0000) ] 4461 * </code></pre> 4462 * <p><img alt="sRGB tonemapping curve" src="/reference/images/camera2/metadata/android.tonemap.curveRed/srgb_tonemap.png" /></p> 4463 * <p><b>Optional</b> - The value for this key may be {@code null} on some devices.</p> 4464 * <p><b>Full capability</b> - 4465 * Present on all camera devices that report being {@link CameraCharacteristics#INFO_SUPPORTED_HARDWARE_LEVEL_FULL HARDWARE_LEVEL_FULL} devices in the 4466 * {@link CameraCharacteristics#INFO_SUPPORTED_HARDWARE_LEVEL android.info.supportedHardwareLevel} key</p> 4467 * 4468 * @see CameraCharacteristics#INFO_SUPPORTED_HARDWARE_LEVEL 4469 * @see CameraCharacteristics#TONEMAP_MAX_CURVE_POINTS 4470 * @see CaptureRequest#TONEMAP_MODE 4471 */ 4472 @PublicKey 4473 @NonNull 4474 @SyntheticKey 4475 public static final Key<android.hardware.camera2.params.TonemapCurve> TONEMAP_CURVE = 4476 new Key<android.hardware.camera2.params.TonemapCurve>("android.tonemap.curve", android.hardware.camera2.params.TonemapCurve.class); 4477 4478 /** 4479 * <p>High-level global contrast/gamma/tonemapping control.</p> 4480 * <p>When switching to an application-defined contrast curve by setting 4481 * {@link CaptureRequest#TONEMAP_MODE android.tonemap.mode} to CONTRAST_CURVE, the curve is defined 4482 * per-channel with a set of <code>(in, out)</code> points that specify the 4483 * mapping from input high-bit-depth pixel value to the output 4484 * low-bit-depth value. Since the actual pixel ranges of both input 4485 * and output may change depending on the camera pipeline, the values 4486 * are specified by normalized floating-point numbers.</p> 4487 * <p>More-complex color mapping operations such as 3D color look-up 4488 * tables, selective chroma enhancement, or other non-linear color 4489 * transforms will be disabled when {@link CaptureRequest#TONEMAP_MODE android.tonemap.mode} is 4490 * CONTRAST_CURVE.</p> 4491 * <p>When using either FAST or HIGH_QUALITY, the camera device will 4492 * emit its own tonemap curve in {@link CaptureRequest#TONEMAP_CURVE android.tonemap.curve}. 4493 * These values are always available, and as close as possible to the 4494 * actually used nonlinear/nonglobal transforms.</p> 4495 * <p>If a request is sent with CONTRAST_CURVE with the camera device's 4496 * provided curve in FAST or HIGH_QUALITY, the image's tonemap will be 4497 * roughly the same.</p> 4498 * <p><b>Possible values:</b> 4499 * <ul> 4500 * <li>{@link #TONEMAP_MODE_CONTRAST_CURVE CONTRAST_CURVE}</li> 4501 * <li>{@link #TONEMAP_MODE_FAST FAST}</li> 4502 * <li>{@link #TONEMAP_MODE_HIGH_QUALITY HIGH_QUALITY}</li> 4503 * <li>{@link #TONEMAP_MODE_GAMMA_VALUE GAMMA_VALUE}</li> 4504 * <li>{@link #TONEMAP_MODE_PRESET_CURVE PRESET_CURVE}</li> 4505 * </ul></p> 4506 * <p><b>Available values for this device:</b><br> 4507 * {@link CameraCharacteristics#TONEMAP_AVAILABLE_TONE_MAP_MODES android.tonemap.availableToneMapModes}</p> 4508 * <p><b>Optional</b> - The value for this key may be {@code null} on some devices.</p> 4509 * <p><b>Full capability</b> - 4510 * Present on all camera devices that report being {@link CameraCharacteristics#INFO_SUPPORTED_HARDWARE_LEVEL_FULL HARDWARE_LEVEL_FULL} devices in the 4511 * {@link CameraCharacteristics#INFO_SUPPORTED_HARDWARE_LEVEL android.info.supportedHardwareLevel} key</p> 4512 * 4513 * @see CameraCharacteristics#INFO_SUPPORTED_HARDWARE_LEVEL 4514 * @see CameraCharacteristics#TONEMAP_AVAILABLE_TONE_MAP_MODES 4515 * @see CaptureRequest#TONEMAP_CURVE 4516 * @see CaptureRequest#TONEMAP_MODE 4517 * @see #TONEMAP_MODE_CONTRAST_CURVE 4518 * @see #TONEMAP_MODE_FAST 4519 * @see #TONEMAP_MODE_HIGH_QUALITY 4520 * @see #TONEMAP_MODE_GAMMA_VALUE 4521 * @see #TONEMAP_MODE_PRESET_CURVE 4522 */ 4523 @PublicKey 4524 @NonNull 4525 public static final Key<Integer> TONEMAP_MODE = 4526 new Key<Integer>("android.tonemap.mode", int.class); 4527 4528 /** 4529 * <p>Tonemapping curve to use when {@link CaptureRequest#TONEMAP_MODE android.tonemap.mode} is 4530 * GAMMA_VALUE</p> 4531 * <p>The tonemap curve will be defined the following formula: 4532 * * OUT = pow(IN, 1.0 / gamma) 4533 * where IN and OUT is the input pixel value scaled to range [0.0, 1.0], 4534 * pow is the power function and gamma is the gamma value specified by this 4535 * key.</p> 4536 * <p>The same curve will be applied to all color channels. The camera device 4537 * may clip the input gamma value to its supported range. The actual applied 4538 * value will be returned in capture result.</p> 4539 * <p>The valid range of gamma value varies on different devices, but values 4540 * within [1.0, 5.0] are guaranteed not to be clipped.</p> 4541 * <p><b>Optional</b> - The value for this key may be {@code null} on some devices.</p> 4542 * 4543 * @see CaptureRequest#TONEMAP_MODE 4544 */ 4545 @PublicKey 4546 @NonNull 4547 public static final Key<Float> TONEMAP_GAMMA = 4548 new Key<Float>("android.tonemap.gamma", float.class); 4549 4550 /** 4551 * <p>Tonemapping curve to use when {@link CaptureRequest#TONEMAP_MODE android.tonemap.mode} is 4552 * PRESET_CURVE</p> 4553 * <p>The tonemap curve will be defined by specified standard.</p> 4554 * <p>sRGB (approximated by 16 control points):</p> 4555 * <p><img alt="sRGB tonemapping curve" src="/reference/images/camera2/metadata/android.tonemap.curveRed/srgb_tonemap.png" /></p> 4556 * <p>Rec. 709 (approximated by 16 control points):</p> 4557 * <p><img alt="Rec. 709 tonemapping curve" src="/reference/images/camera2/metadata/android.tonemap.curveRed/rec709_tonemap.png" /></p> 4558 * <p>Note that above figures show a 16 control points approximation of preset 4559 * curves. Camera devices may apply a different approximation to the curve.</p> 4560 * <p><b>Possible values:</b> 4561 * <ul> 4562 * <li>{@link #TONEMAP_PRESET_CURVE_SRGB SRGB}</li> 4563 * <li>{@link #TONEMAP_PRESET_CURVE_REC709 REC709}</li> 4564 * </ul></p> 4565 * <p><b>Optional</b> - The value for this key may be {@code null} on some devices.</p> 4566 * 4567 * @see CaptureRequest#TONEMAP_MODE 4568 * @see #TONEMAP_PRESET_CURVE_SRGB 4569 * @see #TONEMAP_PRESET_CURVE_REC709 4570 */ 4571 @PublicKey 4572 @NonNull 4573 public static final Key<Integer> TONEMAP_PRESET_CURVE = 4574 new Key<Integer>("android.tonemap.presetCurve", int.class); 4575 4576 /** 4577 * <p>This LED is nominally used to indicate to the user 4578 * that the camera is powered on and may be streaming images back to the 4579 * Application Processor. In certain rare circumstances, the OS may 4580 * disable this when video is processed locally and not transmitted to 4581 * any untrusted applications.</p> 4582 * <p>In particular, the LED <em>must</em> always be on when the data could be 4583 * transmitted off the device. The LED <em>should</em> always be on whenever 4584 * data is stored locally on the device.</p> 4585 * <p>The LED <em>may</em> be off if a trusted application is using the data that 4586 * doesn't violate the above rules.</p> 4587 * <p><b>Optional</b> - The value for this key may be {@code null} on some devices.</p> 4588 * @hide 4589 */ 4590 public static final Key<Boolean> LED_TRANSMIT = 4591 new Key<Boolean>("android.led.transmit", boolean.class); 4592 4593 /** 4594 * <p>Whether black-level compensation is locked 4595 * to its current values, or is free to vary.</p> 4596 * <p>Whether the black level offset was locked for this frame. Should be 4597 * ON if {@link CaptureRequest#BLACK_LEVEL_LOCK android.blackLevel.lock} was ON in the capture request, unless 4598 * a change in other capture settings forced the camera device to 4599 * perform a black level reset.</p> 4600 * <p><b>Optional</b> - The value for this key may be {@code null} on some devices.</p> 4601 * <p><b>Full capability</b> - 4602 * Present on all camera devices that report being {@link CameraCharacteristics#INFO_SUPPORTED_HARDWARE_LEVEL_FULL HARDWARE_LEVEL_FULL} devices in the 4603 * {@link CameraCharacteristics#INFO_SUPPORTED_HARDWARE_LEVEL android.info.supportedHardwareLevel} key</p> 4604 * 4605 * @see CaptureRequest#BLACK_LEVEL_LOCK 4606 * @see CameraCharacteristics#INFO_SUPPORTED_HARDWARE_LEVEL 4607 */ 4608 @PublicKey 4609 @NonNull 4610 public static final Key<Boolean> BLACK_LEVEL_LOCK = 4611 new Key<Boolean>("android.blackLevel.lock", boolean.class); 4612 4613 /** 4614 * <p>The frame number corresponding to the last request 4615 * with which the output result (metadata + buffers) has been fully 4616 * synchronized.</p> 4617 * <p>When a request is submitted to the camera device, there is usually a 4618 * delay of several frames before the controls get applied. A camera 4619 * device may either choose to account for this delay by implementing a 4620 * pipeline and carefully submit well-timed atomic control updates, or 4621 * it may start streaming control changes that span over several frame 4622 * boundaries.</p> 4623 * <p>In the latter case, whenever a request's settings change relative to 4624 * the previous submitted request, the full set of changes may take 4625 * multiple frame durations to fully take effect. Some settings may 4626 * take effect sooner (in less frame durations) than others.</p> 4627 * <p>While a set of control changes are being propagated, this value 4628 * will be CONVERGING.</p> 4629 * <p>Once it is fully known that a set of control changes have been 4630 * finished propagating, and the resulting updated control settings 4631 * have been read back by the camera device, this value will be set 4632 * to a non-negative frame number (corresponding to the request to 4633 * which the results have synchronized to).</p> 4634 * <p>Older camera device implementations may not have a way to detect 4635 * when all camera controls have been applied, and will always set this 4636 * value to UNKNOWN.</p> 4637 * <p>FULL capability devices will always have this value set to the 4638 * frame number of the request corresponding to this result.</p> 4639 * <p><em>Further details</em>:</p> 4640 * <ul> 4641 * <li>Whenever a request differs from the last request, any future 4642 * results not yet returned may have this value set to CONVERGING (this 4643 * could include any in-progress captures not yet returned by the camera 4644 * device, for more details see pipeline considerations below).</li> 4645 * <li>Submitting a series of multiple requests that differ from the 4646 * previous request (e.g. r1, r2, r3 s.t. r1 != r2 != r3) 4647 * moves the new synchronization frame to the last non-repeating 4648 * request (using the smallest frame number from the contiguous list of 4649 * repeating requests).</li> 4650 * <li>Submitting the same request repeatedly will not change this value 4651 * to CONVERGING, if it was already a non-negative value.</li> 4652 * <li>When this value changes to non-negative, that means that all of the 4653 * metadata controls from the request have been applied, all of the 4654 * metadata controls from the camera device have been read to the 4655 * updated values (into the result), and all of the graphics buffers 4656 * corresponding to this result are also synchronized to the request.</li> 4657 * </ul> 4658 * <p><em>Pipeline considerations</em>:</p> 4659 * <p>Submitting a request with updated controls relative to the previously 4660 * submitted requests may also invalidate the synchronization state 4661 * of all the results corresponding to currently in-flight requests.</p> 4662 * <p>In other words, results for this current request and up to 4663 * {@link CameraCharacteristics#REQUEST_PIPELINE_MAX_DEPTH android.request.pipelineMaxDepth} prior requests may have their 4664 * android.sync.frameNumber change to CONVERGING.</p> 4665 * <p><b>Possible values:</b> 4666 * <ul> 4667 * <li>{@link #SYNC_FRAME_NUMBER_CONVERGING CONVERGING}</li> 4668 * <li>{@link #SYNC_FRAME_NUMBER_UNKNOWN UNKNOWN}</li> 4669 * </ul></p> 4670 * <p><b>Available values for this device:</b><br> 4671 * Either a non-negative value corresponding to a 4672 * <code>frame_number</code>, or one of the two enums (CONVERGING / UNKNOWN).</p> 4673 * <p>This key is available on all devices.</p> 4674 * 4675 * @see CameraCharacteristics#REQUEST_PIPELINE_MAX_DEPTH 4676 * @see #SYNC_FRAME_NUMBER_CONVERGING 4677 * @see #SYNC_FRAME_NUMBER_UNKNOWN 4678 * @hide 4679 */ 4680 public static final Key<Long> SYNC_FRAME_NUMBER = 4681 new Key<Long>("android.sync.frameNumber", long.class); 4682 4683 /** 4684 * <p>The amount of exposure time increase factor applied to the original output 4685 * frame by the application processing before sending for reprocessing.</p> 4686 * <p>This is optional, and will be supported if the camera device supports YUV_REPROCESSING 4687 * capability ({@link CameraCharacteristics#REQUEST_AVAILABLE_CAPABILITIES android.request.availableCapabilities} contains YUV_REPROCESSING).</p> 4688 * <p>For some YUV reprocessing use cases, the application may choose to filter the original 4689 * output frames to effectively reduce the noise to the same level as a frame that was 4690 * captured with longer exposure time. To be more specific, assuming the original captured 4691 * images were captured with a sensitivity of S and an exposure time of T, the model in 4692 * the camera device is that the amount of noise in the image would be approximately what 4693 * would be expected if the original capture parameters had been a sensitivity of 4694 * S/effectiveExposureFactor and an exposure time of T*effectiveExposureFactor, rather 4695 * than S and T respectively. If the captured images were processed by the application 4696 * before being sent for reprocessing, then the application may have used image processing 4697 * algorithms and/or multi-frame image fusion to reduce the noise in the 4698 * application-processed images (input images). By using the effectiveExposureFactor 4699 * control, the application can communicate to the camera device the actual noise level 4700 * improvement in the application-processed image. With this information, the camera 4701 * device can select appropriate noise reduction and edge enhancement parameters to avoid 4702 * excessive noise reduction ({@link CaptureRequest#NOISE_REDUCTION_MODE android.noiseReduction.mode}) and insufficient edge 4703 * enhancement ({@link CaptureRequest#EDGE_MODE android.edge.mode}) being applied to the reprocessed frames.</p> 4704 * <p>For example, for multi-frame image fusion use case, the application may fuse 4705 * multiple output frames together to a final frame for reprocessing. When N image are 4706 * fused into 1 image for reprocessing, the exposure time increase factor could be up to 4707 * square root of N (based on a simple photon shot noise model). The camera device will 4708 * adjust the reprocessing noise reduction and edge enhancement parameters accordingly to 4709 * produce the best quality images.</p> 4710 * <p>This is relative factor, 1.0 indicates the application hasn't processed the input 4711 * buffer in a way that affects its effective exposure time.</p> 4712 * <p>This control is only effective for YUV reprocessing capture request. For noise 4713 * reduction reprocessing, it is only effective when <code>{@link CaptureRequest#NOISE_REDUCTION_MODE android.noiseReduction.mode} != OFF</code>. 4714 * Similarly, for edge enhancement reprocessing, it is only effective when 4715 * <code>{@link CaptureRequest#EDGE_MODE android.edge.mode} != OFF</code>.</p> 4716 * <p><b>Units</b>: Relative exposure time increase factor.</p> 4717 * <p><b>Range of valid values:</b><br> 4718 * >= 1.0</p> 4719 * <p><b>Optional</b> - The value for this key may be {@code null} on some devices.</p> 4720 * <p><b>Limited capability</b> - 4721 * Present on all camera devices that report being at least {@link CameraCharacteristics#INFO_SUPPORTED_HARDWARE_LEVEL_LIMITED HARDWARE_LEVEL_LIMITED} devices in the 4722 * {@link CameraCharacteristics#INFO_SUPPORTED_HARDWARE_LEVEL android.info.supportedHardwareLevel} key</p> 4723 * 4724 * @see CaptureRequest#EDGE_MODE 4725 * @see CameraCharacteristics#INFO_SUPPORTED_HARDWARE_LEVEL 4726 * @see CaptureRequest#NOISE_REDUCTION_MODE 4727 * @see CameraCharacteristics#REQUEST_AVAILABLE_CAPABILITIES 4728 */ 4729 @PublicKey 4730 @NonNull 4731 public static final Key<Float> REPROCESS_EFFECTIVE_EXPOSURE_FACTOR = 4732 new Key<Float>("android.reprocess.effectiveExposureFactor", float.class); 4733 4734 /** 4735 * <p>String containing the ID of the underlying active physical camera.</p> 4736 * <p>The ID of the active physical camera that's backing the logical camera. All camera 4737 * streams and metadata that are not physical camera specific will be originating from this 4738 * physical camera.</p> 4739 * <p>For a logical camera made up of physical cameras where each camera's lenses have 4740 * different characteristics, the camera device may choose to switch between the physical 4741 * cameras when application changes FOCAL_LENGTH or SCALER_CROP_REGION. 4742 * At the time of lens switch, this result metadata reflects the new active physical camera 4743 * ID.</p> 4744 * <p>This key will be available if the camera device advertises this key via {@link android.hardware.camera2.CameraCharacteristics#getAvailableCaptureResultKeys }. 4745 * When available, this must be one of valid physical IDs backing this logical multi-camera. 4746 * If this key is not available for a logical multi-camera, the camera device implementation 4747 * may still switch between different active physical cameras based on use case, but the 4748 * current active physical camera information won't be available to the application.</p> 4749 * <p><b>Optional</b> - The value for this key may be {@code null} on some devices.</p> 4750 */ 4751 @PublicKey 4752 @NonNull 4753 public static final Key<String> LOGICAL_MULTI_CAMERA_ACTIVE_PHYSICAL_ID = 4754 new Key<String>("android.logicalMultiCamera.activePhysicalId", String.class); 4755 4756 /** 4757 * <p>Mode of operation for the lens distortion correction block.</p> 4758 * <p>The lens distortion correction block attempts to improve image quality by fixing 4759 * radial, tangential, or other geometric aberrations in the camera device's optics. If 4760 * available, the {@link CameraCharacteristics#LENS_DISTORTION android.lens.distortion} field documents the lens's distortion parameters.</p> 4761 * <p>OFF means no distortion correction is done.</p> 4762 * <p>FAST/HIGH_QUALITY both mean camera device determined distortion correction will be 4763 * applied. HIGH_QUALITY mode indicates that the camera device will use the highest-quality 4764 * correction algorithms, even if it slows down capture rate. FAST means the camera device 4765 * will not slow down capture rate when applying correction. FAST may be the same as OFF if 4766 * any correction at all would slow down capture rate. Every output stream will have a 4767 * similar amount of enhancement applied.</p> 4768 * <p>The correction only applies to processed outputs such as YUV, Y8, JPEG, or DEPTH16; it is 4769 * not applied to any RAW output.</p> 4770 * <p>This control will be on by default on devices that support this control. Applications 4771 * disabling distortion correction need to pay extra attention with the coordinate system of 4772 * metering regions, crop region, and face rectangles. When distortion correction is OFF, 4773 * metadata coordinates follow the coordinate system of 4774 * {@link CameraCharacteristics#SENSOR_INFO_PRE_CORRECTION_ACTIVE_ARRAY_SIZE android.sensor.info.preCorrectionActiveArraySize}. When distortion is not OFF, metadata 4775 * coordinates follow the coordinate system of {@link CameraCharacteristics#SENSOR_INFO_ACTIVE_ARRAY_SIZE android.sensor.info.activeArraySize}. The 4776 * camera device will map these metadata fields to match the corrected image produced by the 4777 * camera device, for both capture requests and results. However, this mapping is not very 4778 * precise, since rectangles do not generally map to rectangles when corrected. Only linear 4779 * scaling between the active array and precorrection active array coordinates is 4780 * performed. Applications that require precise correction of metadata need to undo that 4781 * linear scaling, and apply a more complete correction that takes into the account the app's 4782 * own requirements.</p> 4783 * <p>The full list of metadata that is affected in this way by distortion correction is:</p> 4784 * <ul> 4785 * <li>{@link CaptureRequest#CONTROL_AF_REGIONS android.control.afRegions}</li> 4786 * <li>{@link CaptureRequest#CONTROL_AE_REGIONS android.control.aeRegions}</li> 4787 * <li>{@link CaptureRequest#CONTROL_AWB_REGIONS android.control.awbRegions}</li> 4788 * <li>{@link CaptureRequest#SCALER_CROP_REGION android.scaler.cropRegion}</li> 4789 * <li>{@link CaptureResult#STATISTICS_FACES android.statistics.faces}</li> 4790 * </ul> 4791 * <p><b>Possible values:</b> 4792 * <ul> 4793 * <li>{@link #DISTORTION_CORRECTION_MODE_OFF OFF}</li> 4794 * <li>{@link #DISTORTION_CORRECTION_MODE_FAST FAST}</li> 4795 * <li>{@link #DISTORTION_CORRECTION_MODE_HIGH_QUALITY HIGH_QUALITY}</li> 4796 * </ul></p> 4797 * <p><b>Available values for this device:</b><br> 4798 * {@link CameraCharacteristics#DISTORTION_CORRECTION_AVAILABLE_MODES android.distortionCorrection.availableModes}</p> 4799 * <p><b>Optional</b> - The value for this key may be {@code null} on some devices.</p> 4800 * 4801 * @see CaptureRequest#CONTROL_AE_REGIONS 4802 * @see CaptureRequest#CONTROL_AF_REGIONS 4803 * @see CaptureRequest#CONTROL_AWB_REGIONS 4804 * @see CameraCharacteristics#DISTORTION_CORRECTION_AVAILABLE_MODES 4805 * @see CameraCharacteristics#LENS_DISTORTION 4806 * @see CaptureRequest#SCALER_CROP_REGION 4807 * @see CameraCharacteristics#SENSOR_INFO_ACTIVE_ARRAY_SIZE 4808 * @see CameraCharacteristics#SENSOR_INFO_PRE_CORRECTION_ACTIVE_ARRAY_SIZE 4809 * @see CaptureResult#STATISTICS_FACES 4810 * @see #DISTORTION_CORRECTION_MODE_OFF 4811 * @see #DISTORTION_CORRECTION_MODE_FAST 4812 * @see #DISTORTION_CORRECTION_MODE_HIGH_QUALITY 4813 */ 4814 @PublicKey 4815 @NonNull 4816 public static final Key<Integer> DISTORTION_CORRECTION_MODE = 4817 new Key<Integer>("android.distortionCorrection.mode", int.class); 4818 4819 /*~@~@~@~@~@~@~@~@~@~@~@~@~@~@~@~@~@~@~@~@~@~@~@~@~@~@~@~@~@~@~@~@~@~@~@~ 4820 * End generated code 4821 *~@~@~@~@~@~@~@~@~@~@~@~@~@~@~@~@~@~@~@~@~@~@~@~@~@~@~@~@~@~@~@~@~@~O@*/ 4822 4823 4824 4825 4826 4827 4828 } 4829