diff options
Diffstat (limited to 'camera2/portability/src/com/android/ex/camera2')
10 files changed, 601 insertions, 181 deletions
diff --git a/camera2/portability/src/com/android/ex/camera2/portability/AndroidCamera2AgentImpl.java b/camera2/portability/src/com/android/ex/camera2/portability/AndroidCamera2AgentImpl.java index e675796..62cb700 100644 --- a/camera2/portability/src/com/android/ex/camera2/portability/AndroidCamera2AgentImpl.java +++ b/camera2/portability/src/com/android/ex/camera2/portability/AndroidCamera2AgentImpl.java @@ -35,6 +35,7 @@ import android.hardware.camera2.TotalCaptureResult; import android.hardware.camera2.params.MeteringRectangle; import android.media.Image; import android.media.ImageReader; +import android.media.MediaActionSound; import android.os.Build; import android.os.Handler; import android.os.HandlerThread; @@ -63,6 +64,7 @@ class AndroidCamera2AgentImpl extends CameraAgent { private final CameraStateHolder mCameraState; private final DispatchThread mDispatchThread; private final CameraManager mCameraManager; + private final MediaActionSound mNoisemaker; /** * Number of camera devices. The length of {@code mCameraDevices} does not reveal this @@ -88,6 +90,8 @@ class AndroidCamera2AgentImpl extends CameraAgent { mDispatchThread = new DispatchThread(mCameraHandler, mCameraHandlerThread); mDispatchThread.start(); mCameraManager = (CameraManager) context.getSystemService(Context.CAMERA_SERVICE); + mNoisemaker = new MediaActionSound(); + mNoisemaker.load(MediaActionSound.SHUTTER_CLICK); mNumCameraDevices = 0; mCameraDevices = new ArrayList<String>(); @@ -156,7 +160,7 @@ class AndroidCamera2AgentImpl extends CameraAgent { } private static abstract class CaptureAvailableListener - extends CameraCaptureSession.CaptureListener + extends CameraCaptureSession.CaptureCallback implements ImageReader.OnImageAvailableListener {}; private class Camera2Handler extends HistoryHandler { @@ -194,6 +198,9 @@ class AndroidCamera2AgentImpl extends CameraAgent { // Available whenever setAutoFocusMoveCallback() was last invoked with a non-null argument: private CameraAFMoveCallback mPassiveAfCallback; + // Gets reset on every state change + private int mCurrentAeState = CaptureResult.CONTROL_AE_STATE_INACTIVE; + Camera2Handler(Looper looper) { super(looper); } @@ -208,7 +215,7 @@ class AndroidCamera2AgentImpl extends CameraAgent { CameraOpenCallback openCallback = (CameraOpenCallback) msg.obj; int cameraIndex = msg.arg1; - if (mCameraState.getState() != AndroidCamera2StateHolder.CAMERA_UNOPENED) { + if (mCameraState.getState() > AndroidCamera2StateHolder.CAMERA_UNOPENED) { openCallback.onDeviceOpenedAlready(cameraIndex, generateHistoryString(cameraIndex)); break; @@ -224,7 +231,7 @@ class AndroidCamera2AgentImpl extends CameraAgent { mOpenCallback.onCameraDisabled(msg.arg1); break; } - mCameraManager.openCamera(mCameraId, mCameraDeviceStateListener, this); + mCameraManager.openCamera(mCameraId, mCameraDeviceStateCallback, this); break; } @@ -259,7 +266,7 @@ class AndroidCamera2AgentImpl extends CameraAgent { mPhotoSize = null; mCameraIndex = 0; mCameraId = null; - mCameraState.setState(AndroidCamera2StateHolder.CAMERA_UNOPENED); + changeState(AndroidCamera2StateHolder.CAMERA_UNOPENED); break; } @@ -285,19 +292,23 @@ class AndroidCamera2AgentImpl extends CameraAgent { } mOneshotPreviewingCallback = (CameraStartPreviewCallback) msg.obj; - mCameraState.setState(AndroidCamera2StateHolder.CAMERA_PREVIEW_ACTIVE); + changeState(AndroidCamera2StateHolder.CAMERA_PREVIEW_ACTIVE); try { mSession.setRepeatingRequest( mPersistentSettings.createRequest(mCamera, CameraDevice.TEMPLATE_PREVIEW, mPreviewSurface), - /*listener*/mCameraFocusStateListener, /*handler*/this); + /*listener*/mCameraResultStateCallback, /*handler*/this); } catch(CameraAccessException ex) { Log.w(TAG, "Unable to start preview", ex); - mCameraState.setState(AndroidCamera2StateHolder.CAMERA_PREVIEW_READY); + changeState(AndroidCamera2StateHolder.CAMERA_PREVIEW_READY); } break; } + // FIXME: We need to tear down the CameraCaptureSession here + // (and unlock the CameraSettings object from our + // CameraProxy) so that the preview/photo sizes can be + // changed again while no preview is running. case CameraActions.STOP_PREVIEW: { if (mCameraState.getState() < AndroidCamera2StateHolder.CAMERA_PREVIEW_ACTIVE) { @@ -306,7 +317,7 @@ class AndroidCamera2AgentImpl extends CameraAgent { } mSession.stopRepeating(); - mCameraState.setState(AndroidCamera2StateHolder.CAMERA_PREVIEW_READY); + changeState(AndroidCamera2StateHolder.CAMERA_PREVIEW_READY); break; } @@ -364,19 +375,39 @@ class AndroidCamera2AgentImpl extends CameraAgent { } // The earliest we can reliably tell whether the autofocus has locked in - // response to our latest request is when our one-time capture completes. + // response to our latest request is when our one-time capture progresses. // However, it will probably take longer than that, so once that happens, // just start checking the repeating preview requests as they complete. final CameraAFCallback callback = (CameraAFCallback) msg.obj; - CameraCaptureSession.CaptureListener deferredCallbackSetter = - new CameraCaptureSession.CaptureListener() { + CameraCaptureSession.CaptureCallback deferredCallbackSetter = + new CameraCaptureSession.CaptureCallback() { + private boolean mAlreadyDispatched = false; + + @Override + public void onCaptureProgressed(CameraCaptureSession session, + CaptureRequest request, + CaptureResult result) { + checkAfState(result); + } + @Override public void onCaptureCompleted(CameraCaptureSession session, CaptureRequest request, TotalCaptureResult result) { - // Now our mCameraFocusStateListener will invoke the callback the - // first time it finds the focus motor to be locked. - mOneshotAfCallback = callback; + checkAfState(result); + } + + private void checkAfState(CaptureResult result) { + if (result.get(CaptureResult.CONTROL_AF_STATE) != null && + !mAlreadyDispatched) { + // Now our mCameraResultStateCallback will invoke the callback + // the first time it finds the focus motor to be locked. + mAlreadyDispatched = true; + mOneshotAfCallback = callback; + // This is an optimization: check the AF state of this frame + // instead of simply waiting for the next. + mCameraResultStateCallback.monitorControlStates(result); + } } @Override @@ -388,7 +419,7 @@ class AndroidCamera2AgentImpl extends CameraAgent { }}; // Send a one-time capture to trigger the camera driver to lock focus. - mCameraState.setState(AndroidCamera2StateHolder.CAMERA_FOCUS_LOCKED); + changeState(AndroidCamera2StateHolder.CAMERA_FOCUS_LOCKED); Camera2RequestSettingsSet trigger = new Camera2RequestSettingsSet(mPersistentSettings); trigger.set(CaptureRequest.CONTROL_AF_TRIGGER, @@ -400,7 +431,7 @@ class AndroidCamera2AgentImpl extends CameraAgent { /*listener*/deferredCallbackSetter, /*handler*/ this); } catch(CameraAccessException ex) { Log.e(TAG, "Unable to lock autofocus", ex); - mCameraState.setState(AndroidCamera2StateHolder.CAMERA_PREVIEW_ACTIVE); + changeState(AndroidCamera2StateHolder.CAMERA_PREVIEW_ACTIVE); } break; } @@ -414,7 +445,7 @@ class AndroidCamera2AgentImpl extends CameraAgent { } // Send a one-time capture to trigger the camera driver to resume scanning. - mCameraState.setState(AndroidCamera2StateHolder.CAMERA_PREVIEW_ACTIVE); + changeState(AndroidCamera2StateHolder.CAMERA_PREVIEW_ACTIVE); Camera2RequestSettingsSet cancel = new Camera2RequestSettingsSet(mPersistentSettings); cancel.set(CaptureRequest.CONTROL_AF_TRIGGER, @@ -426,8 +457,7 @@ class AndroidCamera2AgentImpl extends CameraAgent { /*listener*/null, /*handler*/this); } catch(CameraAccessException ex) { Log.e(TAG, "Unable to cancel autofocus", ex); - mCameraState.setState( - AndroidCamera2StateHolder.CAMERA_FOCUS_LOCKED); + changeState(AndroidCamera2StateHolder.CAMERA_FOCUS_LOCKED); } break; } @@ -482,8 +512,21 @@ class AndroidCamera2AgentImpl extends CameraAgent { final CaptureAvailableListener listener = (CaptureAvailableListener) msg.obj; - if (mLegacyDevice) { - // Just snap the shot + if (mLegacyDevice || + (mCurrentAeState == CaptureResult.CONTROL_AE_STATE_CONVERGED && + !mPersistentSettings.matches(CaptureRequest.CONTROL_AE_MODE, + CaptureRequest.CONTROL_AE_MODE_ON_ALWAYS_FLASH) && + !mPersistentSettings.matches(CaptureRequest.FLASH_MODE, + CaptureRequest.FLASH_MODE_SINGLE))) + { + // Legacy devices don't support the precapture state keys and instead + // perform autoexposure convergence automatically upon capture. + + // On other devices, as long as it has already converged, it determined + // that flash was not required, and we're not going to invalidate the + // current exposure levels by forcing the force on, we can save + // significant capture time by not forcing a recalculation. + Log.i(TAG, "Skipping pre-capture autoexposure convergence"); mCaptureReader.setOnImageAvailableListener(listener, /*handler*/this); try { mSession.capture( @@ -492,17 +535,42 @@ class AndroidCamera2AgentImpl extends CameraAgent { mCaptureReader.getSurface()), listener, /*handler*/this); } catch (CameraAccessException ex) { - Log.e(TAG, "Unable to initiate legacy capture", ex); + Log.e(TAG, "Unable to initiate immediate capture", ex); } } else { - // Not a legacy device, so we need to let AE converge before capturing - CameraCaptureSession.CaptureListener deferredCallbackSetter = - new CameraCaptureSession.CaptureListener() { + // We need to let AE converge before capturing. Once our one-time + // trigger capture has made it into the pipeline, we'll start checking + // for the completion of that convergence, capturing when that happens. + Log.i(TAG, "Forcing pre-capture autoexposure convergence"); + CameraCaptureSession.CaptureCallback deferredCallbackSetter = + new CameraCaptureSession.CaptureCallback() { + private boolean mAlreadyDispatched = false; + + @Override + public void onCaptureProgressed(CameraCaptureSession session, + CaptureRequest request, + CaptureResult result) { + checkAeState(result); + } + @Override public void onCaptureCompleted(CameraCaptureSession session, CaptureRequest request, TotalCaptureResult result) { - mOneshotCaptureCallback = listener; + checkAeState(result); + } + + private void checkAeState(CaptureResult result) { + if (result.get(CaptureResult.CONTROL_AE_STATE) != null && + !mAlreadyDispatched) { + // Now our mCameraResultStateCallback will invoke the + // callback once the autoexposure routine has converged. + mAlreadyDispatched = true; + mOneshotCaptureCallback = listener; + // This is an optimization: check the AE state of this frame + // instead of simply waiting for the next. + mCameraResultStateCallback.monitorControlStates(result); + } } @Override @@ -595,13 +663,13 @@ class AndroidCamera2AgentImpl extends CameraAgent { mSession.setRepeatingRequest( mPersistentSettings.createRequest(mCamera, CameraDevice.TEMPLATE_PREVIEW, mPreviewSurface), - /*listener*/mCameraFocusStateListener, /*handler*/this); + /*listener*/mCameraResultStateCallback, /*handler*/this); } catch (CameraAccessException ex) { Log.e(TAG, "Failed to apply updated request settings", ex); } } else if (mCameraState.getState() < AndroidCamera2StateHolder.CAMERA_PREVIEW_READY) { // If we're already ready to preview, this doesn't regress our state - mCameraState.setState(AndroidCamera2StateHolder.CAMERA_CONFIGURED); + changeState(AndroidCamera2StateHolder.CAMERA_CONFIGURED); } } @@ -642,7 +710,7 @@ class AndroidCamera2AgentImpl extends CameraAgent { try { mCamera.createCaptureSession( Arrays.asList(mPreviewSurface, mCaptureReader.getSurface()), - mCameraPreviewStateListener, this); + mCameraPreviewStateCallback, this); } catch (CameraAccessException ex) { Log.e(TAG, "Failed to create camera capture session", ex); } @@ -655,12 +723,22 @@ class AndroidCamera2AgentImpl extends CameraAgent { } catch (CameraAccessException ex) { Log.e(TAG, "Failed to close existing camera capture session", ex); } - mCameraState.setState(AndroidCamera2StateHolder.CAMERA_CONFIGURED); + changeState(AndroidCamera2StateHolder.CAMERA_CONFIGURED); } - // This listener monitors our connection to and disconnection from camera devices. - private CameraDevice.StateListener mCameraDeviceStateListener = - new CameraDevice.StateListener() { + private void changeState(int newState) { + if (mCameraState.getState() != newState) { + mCameraState.setState(newState); + if (newState < AndroidCamera2StateHolder.CAMERA_PREVIEW_ACTIVE) { + mCurrentAeState = CaptureResult.CONTROL_AE_STATE_INACTIVE; + mCameraResultStateCallback.resetState(); + } + } + } + + // This callback monitors our connection to and disconnection from camera devices. + private CameraDevice.StateCallback mCameraDeviceStateCallback = + new CameraDevice.StateCallback() { @Override public void onOpened(CameraDevice camera) { mCamera = camera; @@ -676,7 +754,7 @@ class AndroidCamera2AgentImpl extends CameraAgent { mLegacyDevice = props.get(CameraCharacteristics.INFO_SUPPORTED_HARDWARE_LEVEL) == CameraCharacteristics.INFO_SUPPORTED_HARDWARE_LEVEL_LEGACY; - mCameraState.setState(AndroidCamera2StateHolder.CAMERA_UNCONFIGURED); + changeState(AndroidCamera2StateHolder.CAMERA_UNCONFIGURED); mOpenCallback.onCameraOpened(mCameraProxy); } catch (CameraAccessException ex) { mOpenCallback.onDeviceOpenFailure(mCameraIndex, @@ -700,13 +778,13 @@ class AndroidCamera2AgentImpl extends CameraAgent { } }}; - // This listener monitors our camera session (i.e. our transition into and out of preview). - private CameraCaptureSession.StateListener mCameraPreviewStateListener = - new CameraCaptureSession.StateListener() { + // This callback monitors our camera session (i.e. our transition into and out of preview). + private CameraCaptureSession.StateCallback mCameraPreviewStateCallback = + new CameraCaptureSession.StateCallback() { @Override public void onConfigured(CameraCaptureSession session) { mSession = session; - mCameraState.setState(AndroidCamera2StateHolder.CAMERA_PREVIEW_READY); + changeState(AndroidCamera2StateHolder.CAMERA_PREVIEW_READY); } @Override @@ -724,49 +802,76 @@ class AndroidCamera2AgentImpl extends CameraAgent { } }}; - // This listener monitors requested captures and notifies any relevant callbacks. - private CameraCaptureSession.CaptureListener mCameraFocusStateListener = - new CameraCaptureSession.CaptureListener() { + private abstract class CameraResultStateCallback + extends CameraCaptureSession.CaptureCallback { + public abstract void monitorControlStates(CaptureResult result); + + public abstract void resetState(); + } + + // This callback monitors requested captures and notifies any relevant callbacks. + private CameraResultStateCallback mCameraResultStateCallback = + new CameraResultStateCallback() { private int mLastAfState = -1; + private long mLastAfFrameNumber = -1; + private long mLastAeFrameNumber = -1; + + @Override + public void onCaptureProgressed(CameraCaptureSession session, CaptureRequest request, + CaptureResult result) { + monitorControlStates(result); + } @Override public void onCaptureCompleted(CameraCaptureSession session, CaptureRequest request, TotalCaptureResult result) { + monitorControlStates(result); + } + + @Override + public void monitorControlStates(CaptureResult result) { Integer afStateMaybe = result.get(CaptureResult.CONTROL_AF_STATE); if (afStateMaybe != null) { int afState = afStateMaybe; - boolean afStateChanged = false; - if (afState != mLastAfState) { + // Since we handle both partial and total results for multiple frames here, we + // might get the final callbacks for an earlier frame after receiving one or + // more that correspond to the next one. To prevent our data from oscillating, + // we never consider AF states that are older than the last one we've seen. + if (result.getFrameNumber() > mLastAfFrameNumber) { + boolean afStateChanged = afState != mLastAfState; mLastAfState = afState; - afStateChanged = true; - } - - switch (afState) { - case CaptureResult.CONTROL_AF_STATE_PASSIVE_SCAN: - case CaptureResult.CONTROL_AF_STATE_PASSIVE_FOCUSED: - case CaptureResult.CONTROL_AF_STATE_PASSIVE_UNFOCUSED: { - if (afStateChanged && mPassiveAfCallback != null) { - // A CameraAFMoveCallback is attached. If we just started to scan, - // the motor is moving; otherwise, it has settled. - mPassiveAfCallback.onAutoFocusMoving( - afState == CaptureResult.CONTROL_AF_STATE_PASSIVE_SCAN, - mCameraProxy); + mLastAfFrameNumber = result.getFrameNumber(); + + switch (afState) { + case CaptureResult.CONTROL_AF_STATE_PASSIVE_SCAN: + case CaptureResult.CONTROL_AF_STATE_PASSIVE_FOCUSED: + case CaptureResult.CONTROL_AF_STATE_PASSIVE_UNFOCUSED: { + if (afStateChanged && mPassiveAfCallback != null) { + // A CameraAFMoveCallback is attached. If we just started to + // scan, the motor is moving; otherwise, it has settled. + mPassiveAfCallback.onAutoFocusMoving( + afState == CaptureResult.CONTROL_AF_STATE_PASSIVE_SCAN, + mCameraProxy); + } + break; } - break; - } - case CaptureResult.CONTROL_AF_STATE_FOCUSED_LOCKED: - case CaptureResult.CONTROL_AF_STATE_NOT_FOCUSED_LOCKED: { - if (mOneshotAfCallback != null) { - // A call to autoFocus() was just made to request a focus lock. - // Notify the caller that the lens is now indefinitely fixed, and - // report whether the image we're now stuck with is in focus. - mOneshotAfCallback.onAutoFocus( - afState == CaptureResult.CONTROL_AF_STATE_FOCUSED_LOCKED, - mCameraProxy); - mOneshotAfCallback = null; + case CaptureResult.CONTROL_AF_STATE_FOCUSED_LOCKED: + case CaptureResult.CONTROL_AF_STATE_NOT_FOCUSED_LOCKED: { + // This check must be made regardless of whether the focus state has + // changed recently to avoid infinite waiting during autoFocus() + // when the algorithm has already either converged or failed to. + if (mOneshotAfCallback != null) { + // A call to autoFocus() was just made to request a focus lock. + // Notify the caller that the lens is now indefinitely fixed, + // and report whether the image we're stuck with is in focus. + mOneshotAfCallback.onAutoFocus( + afState == CaptureResult.CONTROL_AF_STATE_FOCUSED_LOCKED, + mCameraProxy); + mOneshotAfCallback = null; + } + break; } - break; } } } @@ -774,36 +879,55 @@ class AndroidCamera2AgentImpl extends CameraAgent { Integer aeStateMaybe = result.get(CaptureResult.CONTROL_AE_STATE); if (aeStateMaybe != null) { int aeState = aeStateMaybe; - - switch (aeState) { - case CaptureResult.CONTROL_AE_STATE_CONVERGED: - case CaptureResult.CONTROL_AE_STATE_FLASH_REQUIRED: - case CaptureResult.CONTROL_AE_STATE_LOCKED: { - if (mOneshotCaptureCallback != null) { - // A call to takePicture() was just made, and autoexposure converged - // so it's time to initiate the capture! - mCaptureReader.setOnImageAvailableListener(mOneshotCaptureCallback, - /*handler*/Camera2Handler.this); - try { - mSession.capture( - mPersistentSettings.createRequest(mCamera, - CameraDevice.TEMPLATE_STILL_CAPTURE, - mCaptureReader.getSurface()), + // Since we handle both partial and total results for multiple frames here, we + // might get the final callbacks for an earlier frame after receiving one or + // more that correspond to the next one. To prevent our data from oscillating, + // we never consider AE states that are older than the last one we've seen. + if (result.getFrameNumber() > mLastAeFrameNumber) { + mCurrentAeState = aeStateMaybe; + mLastAeFrameNumber = result.getFrameNumber(); + + switch (aeState) { + case CaptureResult.CONTROL_AE_STATE_CONVERGED: + case CaptureResult.CONTROL_AE_STATE_FLASH_REQUIRED: + case CaptureResult.CONTROL_AE_STATE_LOCKED: { + // This check must be made regardless of whether the exposure state + // has changed recently to avoid infinite waiting during + // takePicture() when the algorithm has already converged. + if (mOneshotCaptureCallback != null) { + // A call to takePicture() was just made, and autoexposure + // converged so it's time to initiate the capture! + mCaptureReader.setOnImageAvailableListener( /*listener*/mOneshotCaptureCallback, /*handler*/Camera2Handler.this); - } catch (CameraAccessException ex) { - Log.e(TAG, "Unable to initiate capture", ex); - } finally { - mOneshotCaptureCallback = null; + try { + mSession.capture( + mPersistentSettings.createRequest(mCamera, + CameraDevice.TEMPLATE_STILL_CAPTURE, + mCaptureReader.getSurface()), + /*callback*/mOneshotCaptureCallback, + /*handler*/Camera2Handler.this); + } catch (CameraAccessException ex) { + Log.e(TAG, "Unable to initiate capture", ex); + } finally { + mOneshotCaptureCallback = null; + } } + break; } - break; } } } } @Override + public void resetState() { + mLastAfState = -1; + mLastAfFrameNumber = -1; + mLastAeFrameNumber = -1; + } + + @Override public void onCaptureFailed(CameraCaptureSession session, CaptureRequest request, CaptureFailure failure) { Log.e(TAG, "Capture attempt failed with reason " + failure.getReason()); @@ -815,6 +939,8 @@ class AndroidCamera2AgentImpl extends CameraAgent { private final CameraDevice mCamera; private final CameraDeviceInfo.Characteristics mCharacteristics; private final AndroidCamera2Capabilities mCapabilities; + private CameraSettings mLastSettings; + private boolean mShutterSoundEnabled; public AndroidCamera2ProxyImpl(int cameraIndex, CameraDevice camera, CameraDeviceInfo.Characteristics characteristics, @@ -823,6 +949,8 @@ class AndroidCamera2AgentImpl extends CameraAgent { mCamera = camera; mCharacteristics = characteristics; mCapabilities = new AndroidCamera2Capabilities(properties); + mLastSettings = null; + mShutterSoundEnabled = true; } // TODO: Implement @@ -848,6 +976,26 @@ class AndroidCamera2AgentImpl extends CameraAgent { return mCapabilities; } + // FIXME: Unlock the sizes in stopPreview(), as per the corresponding + // explanation on the STOP_PREVIEW case in the handler. + @Override + public void setPreviewTexture(SurfaceTexture surfaceTexture) { + // Once the Surface has been selected, we configure the session and + // are no longer able to change the sizes. + getSettings().setSizesLocked(true); + super.setPreviewTexture(surfaceTexture); + } + + // FIXME: Unlock the sizes in stopPreview(), as per the corresponding + // explanation on the STOP_PREVIEW case in the handler. + @Override + public void setPreviewTextureSync(SurfaceTexture surfaceTexture) { + // Once the Surface has been selected, we configure the session and + // are no longer able to change the sizes. + getSettings().setSizesLocked(true); + super.setPreviewTexture(surfaceTexture); + } + // TODO: Implement @Override public void setPreviewDataCallback(Handler handler, CameraPreviewDataCallback cb) {} @@ -915,7 +1063,6 @@ class AndroidCamera2AgentImpl extends CameraAgent { }}); } - // TODO: Implement @Override public void takePicture(final Handler handler, final CameraShutterCallback shutter, @@ -932,6 +1079,9 @@ class AndroidCamera2AgentImpl extends CameraAgent { handler.post(new Runnable() { @Override public void run() { + if (mShutterSoundEnabled) { + mNoisemaker.play(MediaActionSound.SHUTTER_CLICK); + } shutter.onShutter(AndroidCamera2ProxyImpl.this); }}); } @@ -955,8 +1105,9 @@ class AndroidCamera2AgentImpl extends CameraAgent { mDispatchThread.runJob(new Runnable() { @Override public void run() { - mCameraState.waitForStates(AndroidCamera2StateHolder.CAMERA_PREVIEW_ACTIVE | - AndroidCamera2StateHolder.CAMERA_FOCUS_LOCKED); + // Wait until PREVIEW_ACTIVE or better + mCameraState.waitForStates( + ~(AndroidCamera2StateHolder.CAMERA_PREVIEW_ACTIVE - 1)); mCameraHandler.obtainMessage(CameraActions.CAPTURE_PHOTO, picListener) .sendToTarget(); }}); @@ -993,7 +1144,10 @@ class AndroidCamera2AgentImpl extends CameraAgent { @Override public CameraSettings getSettings() { - return mCameraHandler.buildSettings(mCapabilities); + if (mLastSettings == null) { + mLastSettings = mCameraHandler.buildSettings(mCapabilities); + } + return mLastSettings; } @Override @@ -1007,9 +1161,17 @@ class AndroidCamera2AgentImpl extends CameraAgent { return false; } - return applySettingsHelper(settings, AndroidCamera2StateHolder.CAMERA_UNCONFIGURED | - AndroidCamera2StateHolder.CAMERA_CONFIGURED | - AndroidCamera2StateHolder.CAMERA_PREVIEW_READY); + // Wait for any state that isn't OPENED + if (applySettingsHelper(settings, ~AndroidCamera2StateHolder.CAMERA_UNOPENED)) { + mLastSettings = settings; + return true; + } + return false; + } + + @Override + public void enableShutterSound(boolean enable) { + mShutterSoundEnabled = enable; } // TODO: Implement @@ -1036,19 +1198,22 @@ class AndroidCamera2AgentImpl extends CameraAgent { private static class AndroidCamera2StateHolder extends CameraStateHolder { // Usage flow: openCamera() -> applySettings() -> setPreviewTexture() -> startPreview() -> // autoFocus() -> takePicture() + // States are mutually exclusive, but must be separate bits so that they can be used with + // the StateHolder#waitForStates() and StateHolder#waitToAvoidStates() methods. + // Do not set the state to be a combination of these values! /* Camera states */ /** No camera device is opened. */ - public static final int CAMERA_UNOPENED = 1; + public static final int CAMERA_UNOPENED = 1 << 0; /** A camera is opened, but no settings have been provided. */ - public static final int CAMERA_UNCONFIGURED = 2; + public static final int CAMERA_UNCONFIGURED = 1 << 1; /** The open camera has been configured by providing it with settings. */ - public static final int CAMERA_CONFIGURED = 3; + public static final int CAMERA_CONFIGURED = 1 << 2; /** A capture session is ready to stream a preview, but still has no repeating request. */ - public static final int CAMERA_PREVIEW_READY = 4; + public static final int CAMERA_PREVIEW_READY = 1 << 3; /** A preview is currently being streamed. */ - public static final int CAMERA_PREVIEW_ACTIVE = 5; + public static final int CAMERA_PREVIEW_ACTIVE = 1 << 4; /** The lens is locked on a particular region. */ - public static final int CAMERA_FOCUS_LOCKED = 6; + public static final int CAMERA_FOCUS_LOCKED = 1 << 5; public AndroidCamera2StateHolder() { this(CAMERA_UNOPENED); @@ -1169,9 +1334,7 @@ class AndroidCamera2AgentImpl extends CameraAgent { @Override public boolean canDisableShutterSound() { - // The new API doesn't support this operation, so don't encourage people to try it. - // TODO: What kind of assumptions have callers made about this result's meaning? - return false; + return true; } private static float[] convertRectToPoly(RectF rf) { diff --git a/camera2/portability/src/com/android/ex/camera2/portability/AndroidCamera2Capabilities.java b/camera2/portability/src/com/android/ex/camera2/portability/AndroidCamera2Capabilities.java index 51c1422..8001a37 100644 --- a/camera2/portability/src/com/android/ex/camera2/portability/AndroidCamera2Capabilities.java +++ b/camera2/portability/src/com/android/ex/camera2/portability/AndroidCamera2Capabilities.java @@ -81,7 +81,7 @@ public class AndroidCamera2Capabilities extends CameraCapabilities { mMaxNumOfFacesSupported = p.get(STATISTICS_INFO_MAX_FACE_COUNT); mMaxNumOfMeteringArea = p.get(CONTROL_MAX_REGIONS_AE); - // TODO: Populate mMaxZoomRatio + mMaxZoomRatio = p.get(SCALER_AVAILABLE_MAX_DIGITAL_ZOOM); // TODO: Populate mHorizontalViewAngle // TODO: Populate mVerticalViewAngle // TODO: Populate mZoomRatioList @@ -97,6 +97,10 @@ public class AndroidCamera2Capabilities extends CameraCapabilities { mSupportedFeatures.add(Feature.METERING_AREA); } + if (mMaxZoomRatio > CameraCapabilities.ZOOM_RATIO_UNZOOMED) { + mSupportedFeatures.add(Feature.ZOOM); + } + // TODO: Detect other features } @@ -200,7 +204,6 @@ public class AndroidCamera2Capabilities extends CameraCapabilities { return SceneMode.CANDLELIGHT; case CONTROL_SCENE_MODE_FIREWORKS: return SceneMode.FIREWORKS; - // TODO: We cannot support HDR case CONTROL_SCENE_MODE_LANDSCAPE: return SceneMode.LANDSCAPE; case CONTROL_SCENE_MODE_NIGHT: @@ -222,6 +225,11 @@ public class AndroidCamera2Capabilities extends CameraCapabilities { return SceneMode.THEATRE; // TODO: We cannot expose FACE_PRIORITY, or HIGH_SPEED_VIDEO } + + if (sm == LegacyVendorTags.CONTROL_SCENE_MODE_HDR) { + return SceneMode.HDR; + } + Log.w(TAG, "Unable to convert from API 2 scene mode: " + sm); return null; } diff --git a/camera2/portability/src/com/android/ex/camera2/portability/AndroidCamera2Settings.java b/camera2/portability/src/com/android/ex/camera2/portability/AndroidCamera2Settings.java index efa68e8..540d8df 100644 --- a/camera2/portability/src/com/android/ex/camera2/portability/AndroidCamera2Settings.java +++ b/camera2/portability/src/com/android/ex/camera2/portability/AndroidCamera2Settings.java @@ -18,10 +18,13 @@ package com.android.ex.camera2.portability; import static android.hardware.camera2.CaptureRequest.*; +import android.graphics.Matrix; import android.graphics.Rect; +import android.graphics.RectF; import android.hardware.camera2.CameraAccessException; import android.hardware.camera2.CameraDevice; import android.hardware.camera2.params.MeteringRectangle; +import android.location.Location; import android.util.Range; import com.android.ex.camera2.portability.CameraCapabilities.FlashMode; @@ -41,8 +44,13 @@ public class AndroidCamera2Settings extends CameraSettings { private static final Log.Tag TAG = new Log.Tag("AndCam2Set"); private final Builder mTemplateSettings; - private final Rect mActiveArray; private final Camera2RequestSettingsSet mRequestSettings; + /** Sensor's active array bounds. */ + private final Rect mActiveArray; + /** Crop rectangle for digital zoom (measured WRT the active array). */ + private final Rect mCropRectangle; + /** Bounds of visible preview portion (measured WRT the active array). */ + private Rect mVisiblePreviewRectangle; /** * Create a settings representation that answers queries of unspecified @@ -56,19 +64,33 @@ public class AndroidCamera2Settings extends CameraSettings { * their effective values when submitting a capture request will be those of * the template that is provided to the camera framework at that time.</p> * - * @param camera Device from which to draw default settings. + * @param camera Device from which to draw default settings + * (non-{@code null}). * @param template Specific template to use for the defaults. - * @param activeArray Boundary coordinates of the sensor's active array. + * @param activeArray Boundary coordinates of the sensor's active array + * (non-{@code null}). * @param preview Dimensions of preview streams. * @param photo Dimensions of captured images. * + * @throws IllegalArgumentException If {@code camera} or {@code activeArray} + * is {@code null}. * @throws CameraAccessException Upon internal framework/driver failure. */ public AndroidCamera2Settings(CameraDevice camera, int template, Rect activeArray, Size preview, Size photo) throws CameraAccessException { + if (camera == null) { + throw new NullPointerException("camera must not be null"); + } + if (activeArray == null) { + throw new NullPointerException("activeArray must not be null"); + } + mTemplateSettings = camera.createCaptureRequest(template); - mActiveArray = activeArray; mRequestSettings = new Camera2RequestSettingsSet(); + mActiveArray = activeArray; + mCropRectangle = new Rect(0, 0, activeArray.width(), activeArray.height()); + + mSizesLocked = false; Range<Integer> previewFpsRange = mTemplateSettings.get(CONTROL_AE_TARGET_FPS_RANGE); if (previewFpsRange != null) { @@ -79,8 +101,8 @@ public class AndroidCamera2Settings extends CameraSettings { setPhotoSize(photo); mJpegCompressQuality = queryTemplateDefaultOrMakeOneUp(JPEG_QUALITY, (byte) 0); // TODO: mCurrentPhotoFormat - // TODO: mCurrentZoomRatio - mCurrentZoomRatio = 1.0f; + // NB: We're assuming that templates won't be zoomed in by default. + mCurrentZoomRatio = CameraCapabilities.ZOOM_RATIO_UNZOOMED; // TODO: mCurrentZoomIndex mExposureCompensationIndex = queryTemplateDefaultOrMakeOneUp(CONTROL_AE_EXPOSURE_COMPENSATION, 0); @@ -116,8 +138,9 @@ public class AndroidCamera2Settings extends CameraSettings { public AndroidCamera2Settings(AndroidCamera2Settings other) { super(other); mTemplateSettings = other.mTemplateSettings; - mActiveArray = other.mActiveArray; mRequestSettings = new Camera2RequestSettingsSet(other.mRequestSettings); + mActiveArray = other.mActiveArray; + mCropRectangle = new Rect(other.mCropRectangle); } @Override @@ -159,13 +182,31 @@ public class AndroidCamera2Settings extends CameraSettings { return null; } + @Override + public void setZoomRatio(float ratio) { + super.setZoomRatio(ratio); + + // Compute the crop rectangle to be passed to the framework + mCropRectangle.set(0, 0, + toIntConstrained( + mActiveArray.width() / mCurrentZoomRatio, 0, mActiveArray.width()), + toIntConstrained( + mActiveArray.height() / mCurrentZoomRatio, 0, mActiveArray.height())); + mCropRectangle.offsetTo((mActiveArray.width() - mCropRectangle.width()) / 2, + (mActiveArray.height() - mCropRectangle.height()) / 2); + + // Compute the effective crop rectangle to be used for computing focus/metering coordinates + mVisiblePreviewRectangle = + effectiveCropRectFromRequested(mCropRectangle, mCurrentPreviewSize); + } + private boolean matchesTemplateDefault(Key<?> setting) { if (setting == CONTROL_AE_REGIONS) { return mMeteringAreas.size() == 0; } else if (setting == CONTROL_AF_REGIONS) { return mFocusAreas.size() == 0; } else if (setting == CONTROL_AE_TARGET_FPS_RANGE) { - Range defaultFpsRange = mTemplateSettings.get(CONTROL_AE_TARGET_FPS_RANGE); + Range<Integer> defaultFpsRange = mTemplateSettings.get(CONTROL_AE_TARGET_FPS_RANGE); return (mPreviewFpsRangeMin == 0 && mPreviewFpsRangeMax == 0) || (defaultFpsRange != null && mPreviewFpsRangeMin == defaultFpsRange.getLower() && mPreviewFpsRangeMax == defaultFpsRange.getUpper()); @@ -213,7 +254,7 @@ public class AndroidCamera2Settings extends CameraSettings { // TODO: mCurrentPreviewFormat updateRequestSettingOrForceToDefault(JPEG_QUALITY, mJpegCompressQuality); // TODO: mCurrentPhotoFormat - // TODO: mCurrentZoomRatio + mRequestSettings.set(SCALER_CROP_REGION, mCropRectangle); // TODO: mCurrentZoomIndex updateRequestSettingOrForceToDefault(CONTROL_AE_EXPOSURE_COMPENSATION, mExposureCompensationIndex); @@ -231,7 +272,7 @@ public class AndroidCamera2Settings extends CameraSettings { updateRequestSettingOrForceToDefault(CONTROL_AE_LOCK, mAutoExposureLocked); updateRequestSettingOrForceToDefault(CONTROL_AWB_LOCK, mAutoWhiteBalanceLocked); // TODO: mRecordingHintEnabled - // TODO: mGpsData + updateRequestGpsData(); updateRequestSettingOrForceToDefault(JPEG_THUMBNAIL_SIZE, new android.util.Size( mExifThumbnailSize.width(), mExifThumbnailSize.height())); @@ -243,25 +284,25 @@ public class AndroidCamera2Settings extends CameraSettings { List<android.hardware.Camera.Area> reference) { MeteringRectangle[] transformed = null; if (reference.size() > 0) { - transformed = new MeteringRectangle[reference.size()]; for (int index = 0; index < reference.size(); ++index) { android.hardware.Camera.Area source = reference.get(index); Rect rectangle = source.rect; // Old API coordinates were [-1000,1000]; new ones are [0,ACTIVE_ARRAY_SIZE). + // We're also going from preview image--relative to sensor active array--relative. double oldLeft = (rectangle.left + 1000) / 2000.0; double oldTop = (rectangle.top + 1000) / 2000.0; double oldRight = (rectangle.right + 1000) / 2000.0; double oldBottom = (rectangle.bottom + 1000) / 2000.0; - int left = toIntConstrained( mActiveArray.width() * oldLeft + mActiveArray.left, - 0, mActiveArray.width() - 1); - int top = toIntConstrained( mActiveArray.height() * oldTop + mActiveArray.top, - 0, mActiveArray.height() - 1); - int right = toIntConstrained( mActiveArray.width() * oldRight + mActiveArray.left, - 0, mActiveArray.width() - 1); - int bottom = toIntConstrained( mActiveArray.height() * oldBottom + mActiveArray.top, - 0, mActiveArray.height() - 1); + int left = mCropRectangle.left + toIntConstrained( + mCropRectangle.width() * oldLeft, 0, mCropRectangle.width() - 1); + int top = mCropRectangle.top + toIntConstrained( + mCropRectangle.height() * oldTop, 0, mCropRectangle.height() - 1); + int right = mCropRectangle.left + toIntConstrained( + mCropRectangle.width() * oldRight, 0, mCropRectangle.width() - 1); + int bottom = mCropRectangle.top + toIntConstrained( + mCropRectangle.height() * oldBottom, 0, mCropRectangle.height() - 1); transformed[index] = new MeteringRectangle(left, top, right - left, bottom - top, source.weight); } @@ -378,7 +419,10 @@ public class AndroidCamera2Settings extends CameraSettings { mode = CONTROL_SCENE_MODE_FIREWORKS; break; } - // TODO: We cannot support HDR + case HDR: { + mode = LegacyVendorTags.CONTROL_SCENE_MODE_HDR; + break; + } case LANDSCAPE: { mode = CONTROL_SCENE_MODE_LANDSCAPE; break; @@ -469,4 +513,65 @@ public class AndroidCamera2Settings extends CameraSettings { } mRequestSettings.set(CONTROL_AWB_MODE, mode); } + + private void updateRequestGpsData() { + if (mGpsData == null || mGpsData.processingMethod == null) { + // It's a hack since we always use GPS time stamp but does + // not use other fields sometimes. Setting processing + // method to null means the other fields should not be used. + mRequestSettings.set(JPEG_GPS_LOCATION, null); + } else { + Location location = new Location(mGpsData.processingMethod); + location.setTime(mGpsData.timeStamp); + location.setAltitude(mGpsData.altitude); + location.setLatitude(mGpsData.latitude); + location.setLongitude(mGpsData.longitude); + mRequestSettings.set(JPEG_GPS_LOCATION, location); + } + } + + /** + * Calculate the effective crop rectangle for this preview viewport; + * assumes the preview is centered to the sensor and scaled to fit across one of the dimensions + * without skewing. + * + * <p>Assumes the zoom level of the provided desired crop rectangle.</p> + * + * @param requestedCrop Desired crop rectangle, in active array space. + * @param previewSize Size of the preview buffer render target, in pixels (not in sensor space). + * @return A rectangle that serves as the preview stream's effective crop region (unzoomed), in + * sensor space. + * + * @throws NullPointerException + * If any of the args were {@code null}. + */ + private static Rect effectiveCropRectFromRequested(Rect requestedCrop, Size previewSize) { + float aspectRatioArray = requestedCrop.width() * 1.0f / requestedCrop.height(); + float aspectRatioPreview = previewSize.width() * 1.0f / previewSize.height(); + + float cropHeight, cropWidth; + if (aspectRatioPreview < aspectRatioArray) { + // The new width must be smaller than the height, so scale the width by AR + cropHeight = requestedCrop.height(); + cropWidth = cropHeight * aspectRatioPreview; + } else { + // The new height must be smaller (or equal) than the width, so scale the height by AR + cropWidth = requestedCrop.width(); + cropHeight = cropWidth / aspectRatioPreview; + } + + Matrix translateMatrix = new Matrix(); + RectF cropRect = new RectF(/*left*/0, /*top*/0, cropWidth, cropHeight); + + // Now center the crop rectangle so its center is in the center of the active array + translateMatrix.setTranslate(requestedCrop.exactCenterX(), requestedCrop.exactCenterY()); + translateMatrix.postTranslate(-cropRect.centerX(), -cropRect.centerY()); + + translateMatrix.mapRect(/*inout*/cropRect); + + // Round the rect corners towards the nearest integer values + Rect result = new Rect(); + cropRect.roundOut(result); + return result; + } } diff --git a/camera2/portability/src/com/android/ex/camera2/portability/AndroidCameraAgentImpl.java b/camera2/portability/src/com/android/ex/camera2/portability/AndroidCameraAgentImpl.java index a9aba37..949ac62 100644 --- a/camera2/portability/src/com/android/ex/camera2/portability/AndroidCameraAgentImpl.java +++ b/camera2/portability/src/com/android/ex/camera2/portability/AndroidCameraAgentImpl.java @@ -38,6 +38,8 @@ import android.view.SurfaceHolder; import com.android.ex.camera2.portability.debug.Log; import java.io.IOException; +import java.util.Collections; +import java.util.List; import java.util.StringTokenizer; /** @@ -402,6 +404,7 @@ class AndroidCameraAgentImpl extends CameraAgent { break; } + // TODO: Lock the CameraSettings object's sizes case CameraActions.SET_PREVIEW_TEXTURE_ASYNC: { setPreviewTexture(msg.obj); break; @@ -426,6 +429,7 @@ class AndroidCameraAgentImpl extends CameraAgent { break; } + // TODO: Unlock the CameraSettings object's sizes case CameraActions.STOP_PREVIEW: { mCamera.stopPreview(); break; @@ -600,8 +604,8 @@ class AndroidCameraAgentImpl extends CameraAgent { parameters.setPreviewFormat(settings.getCurrentPreviewFormat()); parameters.setJpegQuality(settings.getPhotoJpegCompressionQuality()); if (mCapabilities.supports(CameraCapabilities.Feature.ZOOM)) { - // Should use settings.getCurrentZoomRatio() instead here. - parameters.setZoom(settings.getCurrentZoomIndex()); + parameters.setZoom(zoomRatioToIndex(settings.getCurrentZoomRatio(), + parameters.getZoomRatios())); } parameters.setExposureCompensation(settings.getExposureCompensationIndex()); if (mCapabilities.supports(CameraCapabilities.Feature.AUTO_EXPOSURE_LOCK)) { @@ -614,11 +618,15 @@ class AndroidCameraAgentImpl extends CameraAgent { if (mCapabilities.supports(CameraCapabilities.Feature.FOCUS_AREA)) { if (settings.getFocusAreas().size() != 0) { parameters.setFocusAreas(settings.getFocusAreas()); + } else { + parameters.setFocusAreas(null); } } if (mCapabilities.supports(CameraCapabilities.Feature.METERING_AREA)) { if (settings.getMeteringAreas().size() != 0) { parameters.setMeteringAreas(settings.getMeteringAreas()); + } else { + parameters.setMeteringAreas(null); } } if (settings.getCurrentFlashMode() != CameraCapabilities.FlashMode.NO_FLASH) { @@ -652,6 +660,29 @@ class AndroidCameraAgentImpl extends CameraAgent { } } + + /** + * @param ratio Desired zoom ratio, in [1.0f,+Inf). + * @param percentages Available zoom ratios, as percentages. + * @return Index of the closest corresponding ratio, rounded up toward + * that of the maximum available ratio. + */ + private int zoomRatioToIndex(float ratio, List<Integer> percentages) { + int percent = (int) (ratio * AndroidCameraCapabilities.ZOOM_MULTIPLIER); + int index = Collections.binarySearch(percentages, percent); + if (index >= 0) { + // Found the desired ratio in the supported list + return index; + } else { + // Didn't find an exact match. Where would it have been? + index = -(index + 1); + if (index == percentages.size()) { + // Put it back in bounds by setting to the maximum allowable zoom + --index; + } + return index; + } + } } /** diff --git a/camera2/portability/src/com/android/ex/camera2/portability/AndroidCameraCapabilities.java b/camera2/portability/src/com/android/ex/camera2/portability/AndroidCameraCapabilities.java index acff9c6..84b44e6 100644 --- a/camera2/portability/src/com/android/ex/camera2/portability/AndroidCameraCapabilities.java +++ b/camera2/portability/src/com/android/ex/camera2/portability/AndroidCameraCapabilities.java @@ -31,6 +31,9 @@ class AndroidCameraCapabilities extends CameraCapabilities { private static Log.Tag TAG = new Log.Tag("AndCamCapabs"); + /** Conversion from ratios to percentages. */ + public static final float ZOOM_MULTIPLIER = 100f; + private FpsComparator mFpsComparator = new FpsComparator(); private SizeComparator mSizeComparator = new SizeComparator(); @@ -44,9 +47,7 @@ class AndroidCameraCapabilities extends CameraCapabilities { mPreferredPreviewSizeForVideo = new Size(p.getPreferredPreviewSizeForVideo()); mSupportedPreviewFormats.addAll(p.getSupportedPreviewFormats()); mSupportedPhotoFormats.addAll(p.getSupportedPictureFormats()); - mMaxZoomIndex = p.getMaxZoom(); - mZoomRatioList.addAll(p.getZoomRatios()); - mMaxZoomRatio = mZoomRatioList.get(mMaxZoomIndex); + mMaxZoomRatio = p.getZoomRatios().get(p.getMaxZoom()) / ZOOM_MULTIPLIER; mHorizontalViewAngle = p.getHorizontalViewAngle(); mVerticalViewAngle = p.getVerticalViewAngle(); buildPreviewFpsRange(p); diff --git a/camera2/portability/src/com/android/ex/camera2/portability/AndroidCameraSettings.java b/camera2/portability/src/com/android/ex/camera2/portability/AndroidCameraSettings.java index ceab7fe..ee69b54 100644 --- a/camera2/portability/src/com/android/ex/camera2/portability/AndroidCameraSettings.java +++ b/camera2/portability/src/com/android/ex/camera2/portability/AndroidCameraSettings.java @@ -28,6 +28,8 @@ public class AndroidCameraSettings extends CameraSettings { public AndroidCameraSettings(CameraCapabilities capabilities, Camera.Parameters params) { CameraCapabilities.Stringifier stringifier = capabilities.getStringifier(); + setSizesLocked(false); + // Preview Camera.Size paramPreviewSize = params.getPreviewSize(); setPreviewSize(new Size(paramPreviewSize.width, paramPreviewSize.height)); @@ -41,10 +43,8 @@ public class AndroidCameraSettings extends CameraSettings { // Capture: Focus, flash, zoom, exposure, scene mode. if (capabilities.supports(CameraCapabilities.Feature.ZOOM)) { setZoomRatio(params.getZoomRatios().get(params.getZoom()) / 100f); - setZoomIndex(params.getZoom()); } else { - setZoomRatio(1.0f); - setZoomIndex(0); + setZoomRatio(CameraCapabilities.ZOOM_RATIO_UNZOOMED); } setExposureCompensationIndex(params.getExposureCompensation()); setFlashMode(stringifier.flashModeFromString(params.getFlashMode())); diff --git a/camera2/portability/src/com/android/ex/camera2/portability/CameraAgent.java b/camera2/portability/src/com/android/ex/camera2/portability/CameraAgent.java index dd4f77c..b624b47 100644 --- a/camera2/portability/src/com/android/ex/camera2/portability/CameraAgent.java +++ b/camera2/portability/src/com/android/ex/camera2/portability/CameraAgent.java @@ -436,8 +436,24 @@ public abstract class CameraAgent { /** * Sets the {@link android.graphics.SurfaceTexture} for preview. * + * <p>Note that, once this operation has been performed, it is no longer + * possible to change the preview or photo sizes in the + * {@link CameraSettings} instance for this camera, and the mutators for + * these fields are allowed to ignore all further invocations until the + * preview is stopped with {@link #stopPreview}.</p> + * * @param surfaceTexture The {@link SurfaceTexture} for preview. - */ + * + * @see CameraSettings#setPhotoSize + * @see CameraSettings#setPreviewSize + */ + // XXX: Despite the above documentation about locking the sizes, the API + // 1 implementation doesn't currently enforce this at all, although the + // Camera class warns that preview sizes shouldn't be changed while a + // preview is running. Furthermore, the API 2 implementation doesn't yet + // unlock the sizes when stopPreview() is invoked (see related FIXME on + // the STOP_PREVIEW case in its handler; in the meantime, changing API 2 + // sizes would require closing and reopening the camera. public void setPreviewTexture(final SurfaceTexture surfaceTexture) { getDispatchThread().runJob(new Runnable() { @Override @@ -452,7 +468,15 @@ public abstract class CameraAgent { * Blocks until a {@link android.graphics.SurfaceTexture} has been set * for preview. * + * <p>Note that, once this operation has been performed, it is no longer + * possible to change the preview or photo sizes in the + * {@link CameraSettings} instance for this camera, and the mutators for + * these fields are allowed to ignore all further invocations.</p> + * * @param surfaceTexture The {@link SurfaceTexture} for preview. + * + * @see CameraSettings#setPhotoSize + * @see CameraSettings#setPreviewSize */ public void setPreviewTextureSync(final SurfaceTexture surfaceTexture) { final WaitDoneBundle bundle = new WaitDoneBundle(); @@ -732,10 +756,11 @@ public abstract class CameraAgent { protected boolean applySettingsHelper(CameraSettings settings, final int statesToAwait) { if (settings == null) { - Log.v(TAG, "null parameters in applySettings()"); + Log.v(TAG, "null argument in applySettings()"); return false; } if (!getCapabilities().supports(settings)) { + Log.w(TAG, "Unsupported settings in applySettings()"); return false; } diff --git a/camera2/portability/src/com/android/ex/camera2/portability/CameraCapabilities.java b/camera2/portability/src/com/android/ex/camera2/portability/CameraCapabilities.java index 6a4c72c..60c8cb2 100644 --- a/camera2/portability/src/com/android/ex/camera2/portability/CameraCapabilities.java +++ b/camera2/portability/src/com/android/ex/camera2/portability/CameraCapabilities.java @@ -36,6 +36,9 @@ public class CameraCapabilities { private static Log.Tag TAG = new Log.Tag("CamCapabs"); + /** Zoom ratio used for seeing sensor's full field of view. */ + protected static final float ZOOM_RATIO_UNZOOMED = 1.0f; + /* All internal states are declared final and should be thread-safe. */ protected final ArrayList<int[]> mSupportedPreviewFpsRange = new ArrayList<int[]>(); @@ -57,12 +60,10 @@ public class CameraCapabilities { protected int mMaxNumOfFacesSupported; protected int mMaxNumOfFocusAreas; protected int mMaxNumOfMeteringArea; - protected int mMaxZoomRatio; + protected float mMaxZoomRatio; protected float mHorizontalViewAngle; protected float mVerticalViewAngle; private final Stringifier mStringifier; - protected final ArrayList<Integer> mZoomRatioList = new ArrayList<Integer>(); - protected int mMaxZoomIndex; /** * Focus modes. @@ -183,7 +184,7 @@ public class CameraCapabilities { * Capture a scene using high dynamic range imaging techniques. * @see {@link android.hardware.Camera.Parameters#SCENE_MODE_HDR}. */ - // TODO: Unsupported on API 2 + // Note: Supported as a vendor tag on the Camera2 API for some LEGACY devices. HDR, /** * Take pictures on distant objects. @@ -488,8 +489,6 @@ public class CameraCapabilities { mMaxNumOfFacesSupported = src.mMaxNumOfFacesSupported; mMaxNumOfFocusAreas = src.mMaxNumOfFocusAreas; mMaxNumOfMeteringArea = src.mMaxNumOfMeteringArea; - mMaxZoomIndex = src.mMaxZoomIndex; - mZoomRatioList.addAll(src.mZoomRatioList); mMaxZoomRatio = src.mMaxZoomRatio; mHorizontalViewAngle = src.mHorizontalViewAngle; mVerticalViewAngle = src.mVerticalViewAngle; @@ -635,17 +634,6 @@ public class CameraCapabilities { return mMaxZoomRatio; } - // We'll replace these old style methods with new ones. - @Deprecated - public int getMaxZoomIndex() { - return mMaxZoomIndex; - } - - @Deprecated - public List<Integer> getZoomRatioList() { - return new ArrayList<Integer>(mZoomRatioList); - } - /** * @return The min exposure compensation index. The EV is the compensation * index multiplied by the step value. If unsupported, both this method and @@ -689,17 +677,15 @@ public class CameraCapabilities { private boolean zoomCheck(final CameraSettings settings) { final float ratio = settings.getCurrentZoomRatio(); - final int index = settings.getCurrentZoomIndex(); if (!supports(Feature.ZOOM)) { - if (ratio != 1.0f || index != 0) { + if (ratio != ZOOM_RATIO_UNZOOMED) { Log.v(TAG, "Zoom is not supported"); return false; } } else { - if (settings.getCurrentZoomRatio() > getMaxZoomRatio() || - index > getMaxZoomIndex()) { + if (settings.getCurrentZoomRatio() > getMaxZoomRatio()) { Log.v(TAG, "Zoom ratio is not supported: ratio = " + - settings.getCurrentZoomRatio() + ", index = " + index); + settings.getCurrentZoomRatio()); return false; } } @@ -720,9 +706,16 @@ public class CameraCapabilities { private boolean focusCheck(final CameraSettings settings) { FocusMode focusMode = settings.getCurrentFocusMode(); if (!supports(focusMode)) { - Log.v(TAG, - "Focus mode not supported:" + (focusMode != null ? focusMode.name() : "null")); - return false; + if (supports(FocusMode.FIXED)) { + // Workaround for devices whose templates define defaults they don't really support + // TODO: Remove workaround (b/17177436) + Log.w(TAG, "Focus mode not supported... trying FIXED"); + settings.setFocusMode(FocusMode.FIXED); + } else { + Log.v(TAG, "Focus mode not supported:" + + (focusMode != null ? focusMode.name() : "null")); + return false; + } } return true; } diff --git a/camera2/portability/src/com/android/ex/camera2/portability/CameraSettings.java b/camera2/portability/src/com/android/ex/camera2/portability/CameraSettings.java index 26d0f85..87e9adf 100644 --- a/camera2/portability/src/com/android/ex/camera2/portability/CameraSettings.java +++ b/camera2/portability/src/com/android/ex/camera2/portability/CameraSettings.java @@ -38,6 +38,7 @@ public abstract class CameraSettings { protected final Map<String, String> mGeneralSetting = new TreeMap<>(); protected final List<Camera.Area> mMeteringAreas = new ArrayList<>(); protected final List<Camera.Area> mFocusAreas = new ArrayList<>(); + protected boolean mSizesLocked; protected int mPreviewFpsRangeMin; protected int mPreviewFpsRangeMax; protected int mPreviewFrameRate; @@ -47,7 +48,6 @@ public abstract class CameraSettings { protected byte mJpegCompressQuality; protected int mCurrentPhotoFormat; protected float mCurrentZoomRatio; - protected int mCurrentZoomIndex; protected int mExposureCompensationIndex; protected CameraCapabilities.FlashMode mCurrentFlashMode; protected CameraCapabilities.FocusMode mCurrentFocusMode; @@ -73,9 +73,20 @@ public abstract class CameraSettings { public final long timeStamp; public final String processingMethod; - /** Constructor. */ + /** + * Construct what may or may not actually represent a location, + * depending on the value of {@code processingMethod}. + * + * <p>Setting {@code processingMethod} to {@code null} means that + * {@code latitude}, {@code longitude}, and {@code altitude} will be + * completely ignored.</p> + */ public GpsData(double latitude, double longitude, double altitude, long timeStamp, String processingMethod) { + if (processingMethod == null && + (latitude != 0.0 || longitude != 0.0 || altitude != 0.0)) { + Log.w(TAG, "GpsData's nonzero data will be ignored due to null processingMethod"); + } this.latitude = latitude; this.longitude = longitude; this.altitude = altitude; @@ -106,6 +117,7 @@ public abstract class CameraSettings { mGeneralSetting.putAll(src.mGeneralSetting); mMeteringAreas.addAll(src.mMeteringAreas); mFocusAreas.addAll(src.mFocusAreas); + mSizesLocked = src.mSizesLocked; mPreviewFpsRangeMin = src.mPreviewFpsRangeMin; mPreviewFpsRangeMax = src.mPreviewFpsRangeMax; mPreviewFrameRate = src.mPreviewFrameRate; @@ -117,7 +129,6 @@ public abstract class CameraSettings { mJpegCompressQuality = src.mJpegCompressQuality; mCurrentPhotoFormat = src.mCurrentPhotoFormat; mCurrentZoomRatio = src.mCurrentZoomRatio; - mCurrentZoomIndex = src.mCurrentZoomIndex; mExposureCompensationIndex = src.mExposureCompensationIndex; mCurrentFlashMode = src.mCurrentFlashMode; mCurrentFocusMode = src.mCurrentFocusMode; @@ -142,6 +153,19 @@ public abstract class CameraSettings { mGeneralSetting.put(key, value); } + /** + * Changes whether classes outside this class are allowed to set the preview + * and photo capture sizes. + * + * @param locked Whether to prevent changes to these fields. + * + * @see #setPhotoSize + * @see #setPreviewSize + */ + /*package*/ void setSizesLocked(boolean locked) { + mSizesLocked = locked; + } + /** Preview **/ /** @@ -203,9 +227,16 @@ public abstract class CameraSettings { /** * @param previewSize The size to use for preview. + * @return Whether the operation was allowed (i.e. the sizes are unlocked). */ - public void setPreviewSize(Size previewSize) { + public boolean setPreviewSize(Size previewSize) { + if (mSizesLocked) { + Log.w(TAG, "Attempt to change preview size while locked"); + return false; + } + mCurrentPreviewSize = new Size(previewSize); + return true; } /** @@ -236,12 +267,17 @@ public abstract class CameraSettings { } /** - * Sets the size for the photo. - * - * @param photoSize The photo size. + * @param photoSize The size to use for preview. + * @return Whether the operation was allowed (i.e. the sizes are unlocked). */ - public void setPhotoSize(Size photoSize) { + public boolean setPhotoSize(Size photoSize) { + if (mSizesLocked) { + Log.w(TAG, "Attempt to change photo size while locked"); + return false; + } + mCurrentPhotoSize = new Size(photoSize); + return true; } /** @@ -301,16 +337,6 @@ public abstract class CameraSettings { mCurrentZoomRatio = ratio; } - @Deprecated - public int getCurrentZoomIndex() { - return mCurrentZoomIndex; - } - - @Deprecated - public void setZoomIndex(int index) { - mCurrentZoomIndex = index; - } - /** Exposure **/ public void setExposureCompensationIndex(int index) { @@ -332,6 +358,14 @@ public abstract class CameraSettings { return mAutoExposureLocked; } + /** + * @param areas The areas for autoexposure. The coordinate system has domain + * and range [-1000,1000], measured relative to the visible + * preview image, with orientation matching that of the sensor. + * This means the coordinates must be transformed to account + * for the devices rotation---but not the zoom level---before + * being passed into this method. + */ public void setMeteringAreas(List<Camera.Area> areas) { mMeteringAreas.clear(); if (areas != null) { @@ -371,7 +405,12 @@ public abstract class CameraSettings { } /** - * @param areas The areas to focus. + * @param areas The areas to focus. The coordinate system has domain and + * range [-1000,1000], measured relative to the visible preview + * image, with orientation matching that of the sensor. This + * means the coordinates must be transformed to account for + * the devices rotation---but not the zoom level---before being + * passed into this method. */ public void setFocusAreas(List<Camera.Area> areas) { mFocusAreas.clear(); diff --git a/camera2/portability/src/com/android/ex/camera2/portability/LegacyVendorTags.java b/camera2/portability/src/com/android/ex/camera2/portability/LegacyVendorTags.java new file mode 100644 index 0000000..7eb5c33 --- /dev/null +++ b/camera2/portability/src/com/android/ex/camera2/portability/LegacyVendorTags.java @@ -0,0 +1,55 @@ +/* + * Copyright (C) 2014 The Android Open Source Project + * + * Licensed under the Apache License, Version 2.0 (the "License"); + * you may not use this file except in compliance with the License. + * You may obtain a copy of the License at + * + * http://www.apache.org/licenses/LICENSE-2.0 + * + * Unless required by applicable law or agreed to in writing, software + * distributed under the License is distributed on an "AS IS" BASIS, + * WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. + * See the License for the specific language governing permissions and + * limitations under the License. + */ + +package com.android.ex.camera2.portability; + +import android.hardware.camera2.CameraCharacteristics; +import android.util.Log; + +import java.lang.ExceptionInInitializerError; +import java.lang.reflect.Field; +import java.lang.reflect.Method; + +/** + * Vendor tag declarations for the Legacy Camera2 API implementation. + */ +public class LegacyVendorTags { + + private static final String TAG = "LegacyVendorTags"; + + /** + * Hidden enum for scene modes supported only by the Camera1 API. + */ + public static final int CONTROL_SCENE_MODE_HDR; + + static { + int tempSceneMode = -1; + try { + tempSceneMode = + Class.forName("android.hardware.camera2.CameraCharacteristics"). + getField("CONTROL_SCENE_MODE_HDR").getInt(null); + } catch (Exception e) { + Log.e(TAG, "Error while reflecting on SCENE_MODE_HDR enum, HDR will not be available: " + + e); + } finally { + CONTROL_SCENE_MODE_HDR = tempSceneMode; + } + } + + private LegacyVendorTags() { + throw new AssertionError(); + } +}
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