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/*
* Copyright (C) 2012 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.camera;
import android.annotation.TargetApi;
import android.app.Activity;
import android.app.AlertDialog;
import android.content.ContentProviderClient;
import android.content.ContentResolver;
import android.content.DialogInterface;
import android.content.Intent;
import android.content.SharedPreferences.Editor;
import android.content.res.Configuration;
import android.graphics.Bitmap;
import android.graphics.SurfaceTexture;
import android.hardware.Camera.CameraInfo;
import android.hardware.Camera.Face;
import android.hardware.Camera.FaceDetectionListener;
import android.hardware.Camera.Parameters;
import android.hardware.Camera.PictureCallback;
import android.hardware.Camera.Size;
import android.location.Location;
import android.media.CameraProfile;
import android.net.Uri;
import android.os.Bundle;
import android.os.ConditionVariable;
import android.os.Handler;
import android.os.Looper;
import android.os.Message;
import android.os.MessageQueue;
import android.os.SystemClock;
import android.provider.MediaStore;
import android.util.Log;
import android.view.Gravity;
import android.view.KeyEvent;
import android.view.LayoutInflater;
import android.view.MotionEvent;
import android.view.OrientationEventListener;
import android.view.SurfaceHolder;
import android.view.View;
import android.view.View.OnClickListener;
import android.view.ViewGroup;
import android.view.WindowManager;
import android.widget.FrameLayout;
import android.widget.FrameLayout.LayoutParams;
import android.widget.ImageView;
import android.widget.Toast;
import com.android.camera.CameraManager.CameraProxy;
import com.android.camera.ui.AbstractSettingPopup;
import com.android.camera.ui.CountDownView;
import com.android.camera.ui.FaceView;
import com.android.camera.ui.PieRenderer;
import com.android.camera.ui.PopupManager;
import com.android.camera.ui.PreviewSurfaceView;
import com.android.camera.ui.RenderOverlay;
import com.android.camera.ui.Rotatable;
import com.android.camera.ui.RotateTextToast;
import com.android.camera.ui.TwoStateImageView;
import com.android.camera.ui.ZoomRenderer;
import com.android.gallery3d.common.ApiHelper;
import com.android.gallery3d.filtershow.CropExtras;
import com.android.gallery3d.filtershow.FilterShowActivity;
import java.io.File;
import java.io.FileNotFoundException;
import java.io.FileOutputStream;
import java.io.IOException;
import java.io.OutputStream;
import java.util.ArrayList;
import java.util.Collections;
import java.util.Formatter;
import java.util.List;
public class PhotoModule
implements CameraModule,
FocusOverlayManager.Listener,
CameraPreference.OnPreferenceChangedListener,
LocationManager.Listener,
PreviewFrameLayout.OnSizeChangedListener,
ShutterButton.OnShutterButtonListener,
SurfaceHolder.Callback,
PieRenderer.PieListener,
CountDownView.OnCountDownFinishedListener {
private static final String TAG = "CAM_PhotoModule";
// We number the request code from 1000 to avoid collision with Gallery.
private static final int REQUEST_CROP = 1000;
private static final int SETUP_PREVIEW = 1;
private static final int FIRST_TIME_INIT = 2;
private static final int CLEAR_SCREEN_DELAY = 3;
private static final int SET_CAMERA_PARAMETERS_WHEN_IDLE = 4;
private static final int CHECK_DISPLAY_ROTATION = 5;
private static final int SHOW_TAP_TO_FOCUS_TOAST = 6;
private static final int SWITCH_CAMERA = 7;
private static final int SWITCH_CAMERA_START_ANIMATION = 8;
private static final int CAMERA_OPEN_DONE = 9;
private static final int START_PREVIEW_DONE = 10;
private static final int OPEN_CAMERA_FAIL = 11;
private static final int CAMERA_DISABLED = 12;
// The subset of parameters we need to update in setCameraParameters().
private static final int UPDATE_PARAM_INITIALIZE = 1;
private static final int UPDATE_PARAM_ZOOM = 2;
private static final int UPDATE_PARAM_PREFERENCE = 4;
private static final int UPDATE_PARAM_ALL = -1;
// This is the timeout to keep the camera in onPause for the first time
// after screen on if the activity is started from secure lock screen.
private static final int KEEP_CAMERA_TIMEOUT = 1000; // ms
// copied from Camera hierarchy
private CameraActivity mActivity;
private View mRootView;
private CameraProxy mCameraDevice;
private int mCameraId;
private Parameters mParameters;
private boolean mPaused;
private AbstractSettingPopup mPopup;
// these are only used by Camera
// The activity is going to switch to the specified camera id. This is
// needed because texture copy is done in GL thread. -1 means camera is not
// switching.
protected int mPendingSwitchCameraId = -1;
private boolean mOpenCameraFail;
private boolean mCameraDisabled;
// When setCameraParametersWhenIdle() is called, we accumulate the subsets
// needed to be updated in mUpdateSet.
private int mUpdateSet;
private static final int SCREEN_DELAY = 2 * 60 * 1000;
private int mZoomValue; // The current zoom value.
private int mZoomMax;
private List<Integer> mZoomRatios;
private Parameters mInitialParams;
private boolean mFocusAreaSupported;
private boolean mMeteringAreaSupported;
private boolean mAeLockSupported;
private boolean mAwbLockSupported;
private boolean mContinousFocusSupported;
// The degrees of the device rotated clockwise from its natural orientation.
private int mOrientation = OrientationEventListener.ORIENTATION_UNKNOWN;
private ComboPreferences mPreferences;
private static final String sTempCropFilename = "crop-temp";
private ContentProviderClient mMediaProviderClient;
private ShutterButton mShutterButton;
private boolean mFaceDetectionStarted = false;
private PreviewFrameLayout mPreviewFrameLayout;
private Object mSurfaceTexture;
private CountDownView mCountDownView;
// for API level 10
private PreviewSurfaceView mPreviewSurfaceView;
private volatile SurfaceHolder mCameraSurfaceHolder;
private FaceView mFaceView;
private RenderOverlay mRenderOverlay;
private Rotatable mReviewCancelButton;
private Rotatable mReviewDoneButton;
private View mReviewRetakeButton;
// mCropValue and mSaveUri are used only if isImageCaptureIntent() is true.
private String mCropValue;
private Uri mSaveUri;
private View mMenu;
private View mBlocker;
// Small indicators which show the camera settings in the viewfinder.
private ImageView mExposureIndicator;
private ImageView mFlashIndicator;
private ImageView mSceneIndicator;
private ImageView mHdrIndicator;
// A view group that contains all the small indicators.
private View mOnScreenIndicators;
// We use a thread in ImageSaver to do the work of saving images. This
// reduces the shot-to-shot time.
private ImageSaver mImageSaver;
// Similarly, we use a thread to generate the name of the picture and insert
// it into MediaStore while picture taking is still in progress.
private ImageNamer mImageNamer;
private Runnable mDoSnapRunnable = new Runnable() {
@Override
public void run() {
onShutterButtonClick();
}
};
private final StringBuilder mBuilder = new StringBuilder();
private final Formatter mFormatter = new Formatter(mBuilder);
private final Object[] mFormatterArgs = new Object[1];
/**
* An unpublished intent flag requesting to return as soon as capturing
* is completed.
*
* TODO: consider publishing by moving into MediaStore.
*/
private static final String EXTRA_QUICK_CAPTURE =
"android.intent.extra.quickCapture";
// The display rotation in degrees. This is only valid when mCameraState is
// not PREVIEW_STOPPED.
private int mDisplayRotation;
// The value for android.hardware.Camera.setDisplayOrientation.
private int mCameraDisplayOrientation;
// The value for UI components like indicators.
private int mDisplayOrientation;
// The value for android.hardware.Camera.Parameters.setRotation.
private int mJpegRotation;
private boolean mFirstTimeInitialized;
private boolean mIsImageCaptureIntent;
private static final int PREVIEW_STOPPED = 0;
private static final int IDLE = 1; // preview is active
// Focus is in progress. The exact focus state is in Focus.java.
private static final int FOCUSING = 2;
private static final int SNAPSHOT_IN_PROGRESS = 3;
// Switching between cameras.
private static final int SWITCHING_CAMERA = 4;
private int mCameraState = PREVIEW_STOPPED;
private boolean mSnapshotOnIdle = false;
private ContentResolver mContentResolver;
private LocationManager mLocationManager;
private final ShutterCallback mShutterCallback = new ShutterCallback();
private final PostViewPictureCallback mPostViewPictureCallback =
new PostViewPictureCallback();
private final RawPictureCallback mRawPictureCallback =
new RawPictureCallback();
private final AutoFocusCallback mAutoFocusCallback =
new AutoFocusCallback();
private final Object mAutoFocusMoveCallback =
ApiHelper.HAS_AUTO_FOCUS_MOVE_CALLBACK
? new AutoFocusMoveCallback()
: null;
private final CameraErrorCallback mErrorCallback = new CameraErrorCallback();
private long mFocusStartTime;
private long mShutterCallbackTime;
private long mPostViewPictureCallbackTime;
private long mRawPictureCallbackTime;
private long mJpegPictureCallbackTime;
private long mOnResumeTime;
private byte[] mJpegImageData;
// These latency time are for the CameraLatency test.
public long mAutoFocusTime;
public long mShutterLag;
public long mShutterToPictureDisplayedTime;
public long mPictureDisplayedToJpegCallbackTime;
public long mJpegCallbackFinishTime;
public long mCaptureStartTime;
// This handles everything about focus.
private FocusOverlayManager mFocusManager;
private PieRenderer mPieRenderer;
private PhotoController mPhotoControl;
private ZoomRenderer mZoomRenderer;
private String mSceneMode;
private Toast mNotSelectableToast;
private final Handler mHandler = new MainHandler();
private PreferenceGroup mPreferenceGroup;
private boolean mQuickCapture;
CameraStartUpThread mCameraStartUpThread;
ConditionVariable mStartPreviewPrerequisiteReady = new ConditionVariable();
private PreviewGestures mGestures;
// The purpose is not to block the main thread in onCreate and onResume.
private class CameraStartUpThread extends Thread {
private volatile boolean mCancelled;
public void cancel() {
mCancelled = true;
interrupt();
}
@Override
public void run() {
try {
// We need to check whether the activity is paused before long
// operations to ensure that onPause() can be done ASAP.
if (mCancelled) return;
mCameraDevice = Util.openCamera(mActivity, mCameraId);
mParameters = mCameraDevice.getParameters();
// Wait until all the initialization needed by startPreview are
// done.
mStartPreviewPrerequisiteReady.block();
initializeCapabilities();
if (mFocusManager == null) initializeFocusManager();
if (mCancelled) return;
setCameraParameters(UPDATE_PARAM_ALL);
mHandler.sendEmptyMessage(CAMERA_OPEN_DONE);
if (mCancelled) return;
startPreview();
mHandler.sendEmptyMessage(START_PREVIEW_DONE);
mOnResumeTime = SystemClock.uptimeMillis();
mHandler.sendEmptyMessage(CHECK_DISPLAY_ROTATION);
} catch (CameraHardwareException e) {
mHandler.sendEmptyMessage(OPEN_CAMERA_FAIL);
} catch (CameraDisabledException e) {
mHandler.sendEmptyMessage(CAMERA_DISABLED);
}
}
}
/**
* This Handler is used to post message back onto the main thread of the
* application
*/
private class MainHandler extends Handler {
@Override
public void handleMessage(Message msg) {
switch (msg.what) {
case SETUP_PREVIEW: {
setupPreview();
break;
}
case CLEAR_SCREEN_DELAY: {
mActivity.getWindow().clearFlags(
WindowManager.LayoutParams.FLAG_KEEP_SCREEN_ON);
break;
}
case FIRST_TIME_INIT: {
initializeFirstTime();
break;
}
case SET_CAMERA_PARAMETERS_WHEN_IDLE: {
setCameraParametersWhenIdle(0);
break;
}
case CHECK_DISPLAY_ROTATION: {
// Set the display orientation if display rotation has changed.
// Sometimes this happens when the device is held upside
// down and camera app is opened. Rotation animation will
// take some time and the rotation value we have got may be
// wrong. Framework does not have a callback for this now.
if (Util.getDisplayRotation(mActivity) != mDisplayRotation) {
setDisplayOrientation();
}
if (SystemClock.uptimeMillis() - mOnResumeTime < 5000) {
mHandler.sendEmptyMessageDelayed(CHECK_DISPLAY_ROTATION, 100);
}
break;
}
case SHOW_TAP_TO_FOCUS_TOAST: {
showTapToFocusToast();
break;
}
case SWITCH_CAMERA: {
switchCamera();
break;
}
case SWITCH_CAMERA_START_ANIMATION: {
((CameraScreenNail) mActivity.mCameraScreenNail).animateSwitchCamera();
break;
}
case CAMERA_OPEN_DONE: {
initializeAfterCameraOpen();
break;
}
case START_PREVIEW_DONE: {
mCameraStartUpThread = null;
setCameraState(IDLE);
if (!ApiHelper.HAS_SURFACE_TEXTURE) {
// This may happen if surfaceCreated has arrived.
mCameraDevice.setPreviewDisplayAsync(mCameraSurfaceHolder);
}
startFaceDetection();
locationFirstRun();
break;
}
case OPEN_CAMERA_FAIL: {
mCameraStartUpThread = null;
mOpenCameraFail = true;
Util.showErrorAndFinish(mActivity,
R.string.cannot_connect_camera);
break;
}
case CAMERA_DISABLED: {
mCameraStartUpThread = null;
mCameraDisabled = true;
Util.showErrorAndFinish(mActivity,
R.string.camera_disabled);
break;
}
}
}
}
@Override
public void init(CameraActivity activity, View parent, boolean reuseNail) {
mActivity = activity;
mRootView = parent;
mPreferences = new ComboPreferences(mActivity);
CameraSettings.upgradeGlobalPreferences(mPreferences.getGlobal());
mCameraId = getPreferredCameraId(mPreferences);
mContentResolver = mActivity.getContentResolver();
// To reduce startup time, open the camera and start the preview in
// another thread.
mCameraStartUpThread = new CameraStartUpThread();
mCameraStartUpThread.start();
mActivity.getLayoutInflater().inflate(R.layout.photo_module, (ViewGroup) mRootView);
// Surface texture is from camera screen nail and startPreview needs it.
// This must be done before startPreview.
mIsImageCaptureIntent = isImageCaptureIntent();
if (reuseNail) {
mActivity.reuseCameraScreenNail(!mIsImageCaptureIntent);
} else {
mActivity.createCameraScreenNail(!mIsImageCaptureIntent);
}
mPreferences.setLocalId(mActivity, mCameraId);
CameraSettings.upgradeLocalPreferences(mPreferences.getLocal());
// we need to reset exposure for the preview
resetExposureCompensation();
// Starting the preview needs preferences, camera screen nail, and
// focus area indicator.
mStartPreviewPrerequisiteReady.open();
initializeControlByIntent();
mQuickCapture = mActivity.getIntent().getBooleanExtra(EXTRA_QUICK_CAPTURE, false);
initializeMiscControls();
mLocationManager = new LocationManager(mActivity, this);
initOnScreenIndicator();
mCountDownView = (CountDownView) (mRootView.findViewById(R.id.count_down_to_capture));
mCountDownView.setCountDownFinishedListener(this);
}
// Prompt the user to pick to record location for the very first run of
// camera only
private void locationFirstRun() {
if (RecordLocationPreference.isSet(mPreferences)) {
return;
}
if (mActivity.isSecureCamera()) return;
// Check if the back camera exists
int backCameraId = CameraHolder.instance().getBackCameraId();
if (backCameraId == -1) {
// If there is no back camera, do not show the prompt.
return;
}
new AlertDialog.Builder(mActivity)
.setTitle(R.string.remember_location_title)
.setMessage(R.string.remember_location_prompt)
.setPositiveButton(R.string.remember_location_yes, new DialogInterface.OnClickListener() {
@Override
public void onClick(DialogInterface dialog, int arg1) {
setLocationPreference(RecordLocationPreference.VALUE_ON);
}
})
.setNegativeButton(R.string.remember_location_no, new DialogInterface.OnClickListener() {
@Override
public void onClick(DialogInterface dialog, int arg1) {
dialog.cancel();
}
})
.setOnCancelListener(new DialogInterface.OnCancelListener() {
@Override
public void onCancel(DialogInterface dialog) {
setLocationPreference(RecordLocationPreference.VALUE_OFF);
}
})
.show();
}
private void setLocationPreference(String value) {
mPreferences.edit()
.putString(CameraSettings.KEY_RECORD_LOCATION, value)
.apply();
// TODO: Fix this to use the actual onSharedPreferencesChanged listener
// instead of invoking manually
onSharedPreferenceChanged();
}
private void initializeRenderOverlay() {
if (mPieRenderer != null) {
mRenderOverlay.addRenderer(mPieRenderer);
mFocusManager.setFocusRenderer(mPieRenderer);
}
if (mZoomRenderer != null) {
mRenderOverlay.addRenderer(mZoomRenderer);
}
if (mGestures != null) {
mGestures.clearTouchReceivers();
mGestures.setRenderOverlay(mRenderOverlay);
mGestures.addTouchReceiver(mMenu);
mGestures.addTouchReceiver(mBlocker);
if (isImageCaptureIntent()) {
if (mReviewCancelButton != null) {
mGestures.addTouchReceiver((View) mReviewCancelButton);
}
if (mReviewDoneButton != null) {
mGestures.addTouchReceiver((View) mReviewDoneButton);
}
}
}
mRenderOverlay.requestLayout();
}
private void initializeAfterCameraOpen() {
if (mPieRenderer == null) {
mPieRenderer = new PieRenderer(mActivity);
mPhotoControl = new PhotoController(mActivity, this, mPieRenderer);
mPhotoControl.setListener(this);
mPieRenderer.setPieListener(this);
}
if (mZoomRenderer == null) {
mZoomRenderer = new ZoomRenderer(mActivity);
}
if (mGestures == null) {
// this will handle gesture disambiguation and dispatching
mGestures = new PreviewGestures(mActivity, this, mZoomRenderer, mPieRenderer);
}
initializeRenderOverlay();
initializePhotoControl();
// These depend on camera parameters.
setPreviewFrameLayoutAspectRatio();
mFocusManager.setPreviewSize(mPreviewFrameLayout.getWidth(),
mPreviewFrameLayout.getHeight());
loadCameraPreferences();
initializeZoom();
updateOnScreenIndicators();
showTapToFocusToastIfNeeded();
onFullScreenChanged(mActivity.isInCameraApp());
}
private void initializePhotoControl() {
loadCameraPreferences();
if (mPhotoControl != null) {
mPhotoControl.initialize(mPreferenceGroup);
}
updateSceneModeUI();
}
private void resetExposureCompensation() {
String value = mPreferences.getString(CameraSettings.KEY_EXPOSURE,
CameraSettings.EXPOSURE_DEFAULT_VALUE);
if (!CameraSettings.EXPOSURE_DEFAULT_VALUE.equals(value)) {
Editor editor = mPreferences.edit();
editor.putString(CameraSettings.KEY_EXPOSURE, "0");
editor.apply();
}
}
private void keepMediaProviderInstance() {
// We want to keep a reference to MediaProvider in camera's lifecycle.
// TODO: Utilize mMediaProviderClient instance to replace
// ContentResolver calls.
if (mMediaProviderClient == null) {
mMediaProviderClient = mContentResolver
.acquireContentProviderClient(MediaStore.AUTHORITY);
}
}
// Snapshots can only be taken after this is called. It should be called
// once only. We could have done these things in onCreate() but we want to
// make preview screen appear as soon as possible.
private void initializeFirstTime() {
if (mFirstTimeInitialized) return;
// Initialize location service.
boolean recordLocation = RecordLocationPreference.get(
mPreferences, mContentResolver);
mLocationManager.recordLocation(recordLocation);
keepMediaProviderInstance();
// Initialize shutter button.
mShutterButton = mActivity.getShutterButton();
mShutterButton.setImageResource(R.drawable.btn_new_shutter);
mShutterButton.setOnShutterButtonListener(this);
mShutterButton.setVisibility(View.VISIBLE);
mImageSaver = new ImageSaver();
mImageNamer = new ImageNamer();
mFirstTimeInitialized = true;
addIdleHandler();
mActivity.updateStorageSpaceAndHint();
}
private void showTapToFocusToastIfNeeded() {
// Show the tap to focus toast if this is the first start.
if (mFocusAreaSupported &&
mPreferences.getBoolean(CameraSettings.KEY_CAMERA_FIRST_USE_HINT_SHOWN, true)) {
// Delay the toast for one second to wait for orientation.
mHandler.sendEmptyMessageDelayed(SHOW_TAP_TO_FOCUS_TOAST, 1000);
}
}
private void addIdleHandler() {
MessageQueue queue = Looper.myQueue();
queue.addIdleHandler(new MessageQueue.IdleHandler() {
@Override
public boolean queueIdle() {
Storage.ensureOSXCompatible();
return false;
}
});
}
// If the activity is paused and resumed, this method will be called in
// onResume.
private void initializeSecondTime() {
// Start location update if needed.
boolean recordLocation = RecordLocationPreference.get(
mPreferences, mContentResolver);
mLocationManager.recordLocation(recordLocation);
mImageSaver = new ImageSaver();
mImageNamer = new ImageNamer();
initializeZoom();
keepMediaProviderInstance();
hidePostCaptureAlert();
if (mPhotoControl != null) {
mPhotoControl.reloadPreferences();
}
}
private class ZoomChangeListener implements ZoomRenderer.OnZoomChangedListener {
@Override
public void onZoomValueChanged(int index) {
// Not useful to change zoom value when the activity is paused.
if (mPaused) return;
mZoomValue = index;
if (mParameters == null || mCameraDevice == null) return;
// Set zoom parameters asynchronously
mParameters.setZoom(mZoomValue);
mCameraDevice.setParametersAsync(mParameters);
if (mZoomRenderer != null) {
Parameters p = mCameraDevice.getParameters();
mZoomRenderer.setZoomValue(mZoomRatios.get(p.getZoom()));
}
}
@Override
public void onZoomStart() {
if (mPieRenderer != null) {
mPieRenderer.setBlockFocus(true);
}
}
@Override
public void onZoomEnd() {
if (mPieRenderer != null) {
mPieRenderer.setBlockFocus(false);
}
}
}
private void initializeZoom() {
if ((mParameters == null) || !mParameters.isZoomSupported()
|| (mZoomRenderer == null)) return;
mZoomMax = mParameters.getMaxZoom();
mZoomRatios = mParameters.getZoomRatios();
// Currently we use immediate zoom for fast zooming to get better UX and
// there is no plan to take advantage of the smooth zoom.
if (mZoomRenderer != null) {
mZoomRenderer.setZoomMax(mZoomMax);
mZoomRenderer.setZoom(mParameters.getZoom());
mZoomRenderer.setZoomValue(mZoomRatios.get(mParameters.getZoom()));
mZoomRenderer.setOnZoomChangeListener(new ZoomChangeListener());
}
}
@TargetApi(ApiHelper.VERSION_CODES.ICE_CREAM_SANDWICH)
@Override
public void startFaceDetection() {
if (!ApiHelper.HAS_FACE_DETECTION) return;
if (mFaceDetectionStarted) return;
if (mParameters.getMaxNumDetectedFaces() > 0) {
mFaceDetectionStarted = true;
mFaceView.clear();
mFaceView.setVisibility(View.VISIBLE);
mFaceView.setDisplayOrientation(mDisplayOrientation);
CameraInfo info = CameraHolder.instance().getCameraInfo()[mCameraId];
mFaceView.setMirror(info.facing == CameraInfo.CAMERA_FACING_FRONT);
mFaceView.resume();
mFocusManager.setFaceView(mFaceView);
mCameraDevice.setFaceDetectionListener(new FaceDetectionListener() {
@Override
public void onFaceDetection(Face[] faces, android.hardware.Camera camera) {
mFaceView.setFaces(faces);
}
});
mCameraDevice.startFaceDetection();
}
}
@TargetApi(ApiHelper.VERSION_CODES.ICE_CREAM_SANDWICH)
@Override
public void stopFaceDetection() {
if (!ApiHelper.HAS_FACE_DETECTION) return;
if (!mFaceDetectionStarted) return;
if (mParameters.getMaxNumDetectedFaces() > 0) {
mFaceDetectionStarted = false;
mCameraDevice.setFaceDetectionListener(null);
mCameraDevice.stopFaceDetection();
if (mFaceView != null) mFaceView.clear();
}
}
@Override
public boolean dispatchTouchEvent(MotionEvent m) {
if (mCameraState == SWITCHING_CAMERA) return true;
if (mPopup != null) {
return mActivity.superDispatchTouchEvent(m);
} else if (mGestures != null && mRenderOverlay != null) {
return mGestures.dispatchTouch(m);
}
return false;
}
private void initOnScreenIndicator() {
mOnScreenIndicators = mRootView.findViewById(R.id.on_screen_indicators);
mExposureIndicator = (ImageView) mOnScreenIndicators.findViewById(R.id.menu_exposure_indicator);
mFlashIndicator = (ImageView) mOnScreenIndicators.findViewById(R.id.menu_flash_indicator);
mSceneIndicator = (ImageView) mOnScreenIndicators.findViewById(R.id.menu_scenemode_indicator);
mHdrIndicator = (ImageView) mOnScreenIndicators.findViewById(R.id.menu_hdr_indicator);
}
@Override
public void showGpsOnScreenIndicator(boolean hasSignal) { }
@Override
public void hideGpsOnScreenIndicator() { }
private void updateExposureOnScreenIndicator(int value) {
if (mExposureIndicator == null) {
return;
}
int id = 0;
float step = mParameters.getExposureCompensationStep();
value = (int) Math.round(value * step);
switch(value) {
case -3:
id = R.drawable.ic_indicator_ev_n3;
break;
case -2:
id = R.drawable.ic_indicator_ev_n2;
break;
case -1:
id = R.drawable.ic_indicator_ev_n1;
break;
case 0:
id = R.drawable.ic_indicator_ev_0;
break;
case 1:
id = R.drawable.ic_indicator_ev_p1;
break;
case 2:
id = R.drawable.ic_indicator_ev_p2;
break;
case 3:
id = R.drawable.ic_indicator_ev_p3;
break;
}
mExposureIndicator.setImageResource(id);
}
private void updateFlashOnScreenIndicator(String value) {
if (mFlashIndicator == null) {
return;
}
if (value == null || Parameters.FLASH_MODE_OFF.equals(value)) {
mFlashIndicator.setImageResource(R.drawable.ic_indicator_flash_off);
} else {
if (Parameters.FLASH_MODE_AUTO.equals(value)) {
mFlashIndicator.setImageResource(R.drawable.ic_indicator_flash_auto);
} else if (Parameters.FLASH_MODE_ON.equals(value)) {
mFlashIndicator.setImageResource(R.drawable.ic_indicator_flash_on);
} else {
mFlashIndicator.setImageResource(R.drawable.ic_indicator_flash_off);
}
}
}
private void updateSceneOnScreenIndicator(String value) {
if (mSceneIndicator == null) {
return;
}
if ((value == null) || Parameters.SCENE_MODE_AUTO.equals(value)
|| Parameters.SCENE_MODE_HDR.equals(value)) {
mSceneIndicator.setImageResource(R.drawable.ic_indicator_sce_off);
} else {
mSceneIndicator.setImageResource(R.drawable.ic_indicator_sce_on);
}
}
private void updateHdrOnScreenIndicator(String value) {
if (mHdrIndicator == null) {
return;
}
if ((value != null) && Parameters.SCENE_MODE_HDR.equals(value)) {
mHdrIndicator.setImageResource(R.drawable.ic_indicator_hdr_on);
} else {
mHdrIndicator.setImageResource(R.drawable.ic_indicator_hdr_off);
}
}
private void updateOnScreenIndicators() {
if (mParameters == null) return;
updateSceneOnScreenIndicator(mParameters.getSceneMode());
updateExposureOnScreenIndicator(CameraSettings.readExposure(mPreferences));
updateFlashOnScreenIndicator(mParameters.getFlashMode());
updateHdrOnScreenIndicator(mParameters.getSceneMode());
}
private final class ShutterCallback
implements android.hardware.Camera.ShutterCallback {
@Override
public void onShutter() {
mShutterCallbackTime = System.currentTimeMillis();
mShutterLag = mShutterCallbackTime - mCaptureStartTime;
Log.v(TAG, "mShutterLag = " + mShutterLag + "ms");
}
}
private final class PostViewPictureCallback implements PictureCallback {
@Override
public void onPictureTaken(
byte [] data, android.hardware.Camera camera) {
mPostViewPictureCallbackTime = System.currentTimeMillis();
Log.v(TAG, "mShutterToPostViewCallbackTime = "
+ (mPostViewPictureCallbackTime - mShutterCallbackTime)
+ "ms");
}
}
private final class RawPictureCallback implements PictureCallback {
@Override
public void onPictureTaken(
byte [] rawData, android.hardware.Camera camera) {
mRawPictureCallbackTime = System.currentTimeMillis();
Log.v(TAG, "mShutterToRawCallbackTime = "
+ (mRawPictureCallbackTime - mShutterCallbackTime) + "ms");
}
}
private final class JpegPictureCallback implements PictureCallback {
Location mLocation;
public JpegPictureCallback(Location loc) {
mLocation = loc;
}
@Override
public void onPictureTaken(
final byte [] jpegData, final android.hardware.Camera camera) {
if (mPaused) {
return;
}
if (mSceneMode == Util.SCENE_MODE_HDR) {
mActivity.showSwitcher();
mActivity.setSwipingEnabled(true);
}
mJpegPictureCallbackTime = System.currentTimeMillis();
// If postview callback has arrived, the captured image is displayed
// in postview callback. If not, the captured image is displayed in
// raw picture callback.
if (mPostViewPictureCallbackTime != 0) {
mShutterToPictureDisplayedTime =
mPostViewPictureCallbackTime - mShutterCallbackTime;
mPictureDisplayedToJpegCallbackTime =
mJpegPictureCallbackTime - mPostViewPictureCallbackTime;
} else {
mShutterToPictureDisplayedTime =
mRawPictureCallbackTime - mShutterCallbackTime;
mPictureDisplayedToJpegCallbackTime =
mJpegPictureCallbackTime - mRawPictureCallbackTime;
}
Log.v(TAG, "mPictureDisplayedToJpegCallbackTime = "
+ mPictureDisplayedToJpegCallbackTime + "ms");
// Only animate when in full screen capture mode
// i.e. If monkey/a user swipes to the gallery during picture taking,
// don't show animation
if (ApiHelper.HAS_SURFACE_TEXTURE && !mIsImageCaptureIntent
&& mActivity.mShowCameraAppView) {
// Finish capture animation
((CameraScreenNail) mActivity.mCameraScreenNail).animateSlide();
}
mFocusManager.updateFocusUI(); // Ensure focus indicator is hidden.
if (!mIsImageCaptureIntent) {
if (ApiHelper.CAN_START_PREVIEW_IN_JPEG_CALLBACK) {
setupPreview();
} else {
// Camera HAL of some devices have a bug. Starting preview
// immediately after taking a picture will fail. Wait some
// time before starting the preview.
mHandler.sendEmptyMessageDelayed(SETUP_PREVIEW, 300);
}
}
if (!mIsImageCaptureIntent) {
// Calculate the width and the height of the jpeg.
Size s = mParameters.getPictureSize();
int orientation = Exif.getOrientation(jpegData);
int width, height;
if ((mJpegRotation + orientation) % 180 == 0) {
width = s.width;
height = s.height;
} else {
width = s.height;
height = s.width;
}
Uri uri = mImageNamer.getUri();
mActivity.addSecureAlbumItemIfNeeded(false, uri);
String title = mImageNamer.getTitle();
mImageSaver.addImage(jpegData, uri, title, mLocation,
width, height, orientation);
} else {
mJpegImageData = jpegData;
if (!mQuickCapture) {
showPostCaptureAlert();
} else {
doAttach();
}
}
// Check this in advance of each shot so we don't add to shutter
// latency. It's true that someone else could write to the SD card in
// the mean time and fill it, but that could have happened between the
// shutter press and saving the JPEG too.
mActivity.updateStorageSpaceAndHint();
long now = System.currentTimeMillis();
mJpegCallbackFinishTime = now - mJpegPictureCallbackTime;
Log.v(TAG, "mJpegCallbackFinishTime = "
+ mJpegCallbackFinishTime + "ms");
mJpegPictureCallbackTime = 0;
}
}
private final class AutoFocusCallback
implements android.hardware.Camera.AutoFocusCallback {
@Override
public void onAutoFocus(
boolean focused, android.hardware.Camera camera) {
if (mPaused) return;
mAutoFocusTime = System.currentTimeMillis() - mFocusStartTime;
Log.v(TAG, "mAutoFocusTime = " + mAutoFocusTime + "ms");
setCameraState(IDLE);
mFocusManager.onAutoFocus(focused, mShutterButton.isPressed());
}
}
@TargetApi(ApiHelper.VERSION_CODES.JELLY_BEAN)
private final class AutoFocusMoveCallback
implements android.hardware.Camera.AutoFocusMoveCallback {
@Override
public void onAutoFocusMoving(
boolean moving, android.hardware.Camera camera) {
mFocusManager.onAutoFocusMoving(moving);
}
}
// Each SaveRequest remembers the data needed to save an image.
private static class SaveRequest {
byte[] data;
Uri uri;
String title;
Location loc;
int width, height;
int orientation;
}
// We use a queue to store the SaveRequests that have not been completed
// yet. The main thread puts the request into the queue. The saver thread
// gets it from the queue, does the work, and removes it from the queue.
//
// The main thread needs to wait for the saver thread to finish all the work
// in the queue, when the activity's onPause() is called, we need to finish
// all the work, so other programs (like Gallery) can see all the images.
//
// If the queue becomes too long, adding a new request will block the main
// thread until the queue length drops below the threshold (QUEUE_LIMIT).
// If we don't do this, we may face several problems: (1) We may OOM
// because we are holding all the jpeg data in memory. (2) We may ANR
// when we need to wait for saver thread finishing all the work (in
// onPause() or gotoGallery()) because the time to finishing a long queue
// of work may be too long.
private class ImageSaver extends Thread {
private static final int QUEUE_LIMIT = 3;
private ArrayList<SaveRequest> mQueue;
private boolean mStop;
// Runs in main thread
public ImageSaver() {
mQueue = new ArrayList<SaveRequest>();
start();
}
// Runs in main thread
public void addImage(final byte[] data, Uri uri, String title,
Location loc, int width, int height, int orientation) {
SaveRequest r = new SaveRequest();
r.data = data;
r.uri = uri;
r.title = title;
r.loc = (loc == null) ? null : new Location(loc); // make a copy
r.width = width;
r.height = height;
r.orientation = orientation;
synchronized (this) {
while (mQueue.size() >= QUEUE_LIMIT) {
try {
wait();
} catch (InterruptedException ex) {
// ignore.
}
}
mQueue.add(r);
notifyAll(); // Tell saver thread there is new work to do.
}
}
// Runs in saver thread
@Override
public void run() {
while (true) {
SaveRequest r;
synchronized (this) {
if (mQueue.isEmpty()) {
notifyAll(); // notify main thread in waitDone
// Note that we can only stop after we saved all images
// in the queue.
if (mStop) break;
try {
wait();
} catch (InterruptedException ex) {
// ignore.
}
continue;
}
r = mQueue.get(0);
}
storeImage(r.data, r.uri, r.title, r.loc, r.width, r.height,
r.orientation);
synchronized (this) {
mQueue.remove(0);
notifyAll(); // the main thread may wait in addImage
}
}
}
// Runs in main thread
public void waitDone() {
synchronized (this) {
while (!mQueue.isEmpty()) {
try {
wait();
} catch (InterruptedException ex) {
// ignore.
}
}
}
}
// Runs in main thread
public void finish() {
waitDone();
synchronized (this) {
mStop = true;
notifyAll();
}
try {
join();
} catch (InterruptedException ex) {
// ignore.
}
}
// Runs in saver thread
private void storeImage(final byte[] data, Uri uri, String title,
Location loc, int width, int height, int orientation) {
boolean ok = Storage.updateImage(mContentResolver, uri, title, loc,
orientation, data, width, height);
if (ok) {
Util.broadcastNewPicture(mActivity, uri);
}
}
}
private static class ImageNamer extends Thread {
private boolean mRequestPending;
private ContentResolver mResolver;
private long mDateTaken;
private int mWidth, mHeight;
private boolean mStop;
private Uri mUri;
private String mTitle;
// Runs in main thread
public ImageNamer() {
start();
}
// Runs in main thread
public synchronized void prepareUri(ContentResolver resolver,
long dateTaken, int width, int height, int rotation) {
if (rotation % 180 != 0) {
int tmp = width;
width = height;
height = tmp;
}
mRequestPending = true;
mResolver = resolver;
mDateTaken = dateTaken;
mWidth = width;
mHeight = height;
notifyAll();
}
// Runs in main thread
public synchronized Uri getUri() {
// wait until the request is done.
while (mRequestPending) {
try {
wait();
} catch (InterruptedException ex) {
// ignore.
}
}
// return the uri generated
Uri uri = mUri;
mUri = null;
return uri;
}
// Runs in main thread, should be called after getUri().
public synchronized String getTitle() {
return mTitle;
}
// Runs in namer thread
@Override
public synchronized void run() {
while (true) {
if (mStop) break;
if (!mRequestPending) {
try {
wait();
} catch (InterruptedException ex) {
// ignore.
}
continue;
}
cleanOldUri();
generateUri();
mRequestPending = false;
notifyAll();
}
cleanOldUri();
}
// Runs in main thread
public synchronized void finish() {
mStop = true;
notifyAll();
}
// Runs in namer thread
private void generateUri() {
mTitle = Util.createJpegName(mDateTaken);
mUri = Storage.newImage(mResolver, mTitle, mDateTaken, mWidth, mHeight);
}
// Runs in namer thread
private void cleanOldUri() {
if (mUri == null) return;
Storage.deleteImage(mResolver, mUri);
mUri = null;
}
}
private void setCameraState(int state) {
mCameraState = state;
switch (state) {
case PREVIEW_STOPPED:
case SNAPSHOT_IN_PROGRESS:
case FOCUSING:
case SWITCHING_CAMERA:
if (mGestures != null) mGestures.setEnabled(false);
break;
case IDLE:
if (mGestures != null && mActivity.mShowCameraAppView) {
// Enable gestures only when the camera app view is visible
mGestures.setEnabled(true);
}
break;
}
}
private void animateFlash() {
// Only animate when in full screen capture mode
// i.e. If monkey/a user swipes to the gallery during picture taking,
// don't show animation
if (ApiHelper.HAS_SURFACE_TEXTURE && !mIsImageCaptureIntent
&& mActivity.mShowCameraAppView) {
// Start capture animation.
((CameraScreenNail) mActivity.mCameraScreenNail).animateFlash(mDisplayRotation);
}
}
@Override
public boolean capture() {
// If we are already in the middle of taking a snapshot then ignore.
if (mCameraDevice == null || mCameraState == SNAPSHOT_IN_PROGRESS
|| mCameraState == SWITCHING_CAMERA) {
return false;
}
mCaptureStartTime = System.currentTimeMillis();
mPostViewPictureCallbackTime = 0;
mJpegImageData = null;
final boolean animateBefore = (mSceneMode == Util.SCENE_MODE_HDR);
if (animateBefore) {
animateFlash();
}
// Set rotation and gps data.
mJpegRotation = Util.getJpegRotation(mCameraId, mOrientation);
mParameters.setRotation(mJpegRotation);
Location loc = mLocationManager.getCurrentLocation();
Util.setGpsParameters(mParameters, loc);
mCameraDevice.setParameters(mParameters);
mCameraDevice.takePicture2(mShutterCallback, mRawPictureCallback,
mPostViewPictureCallback, new JpegPictureCallback(loc),
mCameraState, mFocusManager.getFocusState());
if (!animateBefore) {
animateFlash();
}
Size size = mParameters.getPictureSize();
mImageNamer.prepareUri(mContentResolver, mCaptureStartTime,
size.width, size.height, mJpegRotation);
mFaceDetectionStarted = false;
setCameraState(SNAPSHOT_IN_PROGRESS);
return true;
}
@Override
public void setFocusParameters() {
setCameraParameters(UPDATE_PARAM_PREFERENCE);
}
private int getPreferredCameraId(ComboPreferences preferences) {
int intentCameraId = Util.getCameraFacingIntentExtras(mActivity);
if (intentCameraId != -1) {
// Testing purpose. Launch a specific camera through the intent
// extras.
return intentCameraId;
} else {
return CameraSettings.readPreferredCameraId(preferences);
}
}
private void setShowMenu(boolean show) {
if (mOnScreenIndicators != null) {
mOnScreenIndicators.setVisibility(show ? View.VISIBLE : View.GONE);
}
if (mMenu != null) {
mMenu.setVisibility(show ? View.VISIBLE : View.GONE);
}
}
@Override
public void onFullScreenChanged(boolean full) {
if (mFaceView != null) {
mFaceView.setBlockDraw(!full);
}
if (mPopup != null) {
dismissPopup(false, full);
}
if (mGestures != null) {
mGestures.setEnabled(full);
}
if (mRenderOverlay != null) {
// this can not happen in capture mode
mRenderOverlay.setVisibility(full ? View.VISIBLE : View.GONE);
}
if (mPieRenderer != null) {
mPieRenderer.setBlockFocus(!full);
}
setShowMenu(full);
if (mBlocker != null) {
mBlocker.setVisibility(full ? View.VISIBLE : View.GONE);
}
if (!full && mCountDownView != null) mCountDownView.cancelCountDown();
if (ApiHelper.HAS_SURFACE_TEXTURE) {
if (mActivity.mCameraScreenNail != null) {
((CameraScreenNail) mActivity.mCameraScreenNail).setFullScreen(full);
}
return;
}
if (full) {
mPreviewSurfaceView.expand();
} else {
mPreviewSurfaceView.shrink();
}
}
@Override
public void surfaceChanged(SurfaceHolder holder, int format, int width, int height) {
Log.v(TAG, "surfaceChanged:" + holder + " width=" + width + ". height="
+ height);
}
@Override
public void surfaceCreated(SurfaceHolder holder) {
Log.v(TAG, "surfaceCreated: " + holder);
mCameraSurfaceHolder = holder;
// Do not access the camera if camera start up thread is not finished.
if (mCameraDevice == null || mCameraStartUpThread != null) return;
mCameraDevice.setPreviewDisplayAsync(holder);
// This happens when onConfigurationChanged arrives, surface has been
// destroyed, and there is no onFullScreenChanged.
if (mCameraState == PREVIEW_STOPPED) {
setupPreview();
}
}
@Override
public void surfaceDestroyed(SurfaceHolder holder) {
Log.v(TAG, "surfaceDestroyed: " + holder);
mCameraSurfaceHolder = null;
stopPreview();
}
private void updateSceneModeUI() {
// If scene mode is set, we cannot set flash mode, white balance, and
// focus mode, instead, we read it from driver
if (!Parameters.SCENE_MODE_AUTO.equals(mSceneMode)) {
overrideCameraSettings(mParameters.getFlashMode(),
mParameters.getWhiteBalance(), mParameters.getFocusMode());
} else {
overrideCameraSettings(null, null, null);
}
}
private void overrideCameraSettings(final String flashMode,
final String whiteBalance, final String focusMode) {
if (mPhotoControl != null) {
// mPieControl.enableFilter(true);
mPhotoControl.overrideSettings(
CameraSettings.KEY_FLASH_MODE, flashMode,
CameraSettings.KEY_WHITE_BALANCE, whiteBalance,
CameraSettings.KEY_FOCUS_MODE, focusMode);
// mPieControl.enableFilter(false);
}
}
private void loadCameraPreferences() {
CameraSettings settings = new CameraSettings(mActivity, mInitialParams,
mCameraId, CameraHolder.instance().getCameraInfo());
mPreferenceGroup = settings.getPreferenceGroup(R.xml.camera_preferences);
}
@Override
public boolean collapseCameraControls() {
// Remove all the popups/dialog boxes
boolean ret = false;
if (mPopup != null) {
dismissPopup(false);
ret = true;
}
return ret;
}
public boolean removeTopLevelPopup() {
// Remove the top level popup or dialog box and return true if there's any
if (mPopup != null) {
dismissPopup(true);
return true;
}
return false;
}
@Override
public void onOrientationChanged(int orientation) {
// We keep the last known orientation. So if the user first orient
// the camera then point the camera to floor or sky, we still have
// the correct orientation.
if (orientation == OrientationEventListener.ORIENTATION_UNKNOWN) return;
mOrientation = Util.roundOrientation(orientation, mOrientation);
// Show the toast after getting the first orientation changed.
if (mHandler.hasMessages(SHOW_TAP_TO_FOCUS_TOAST)) {
mHandler.removeMessages(SHOW_TAP_TO_FOCUS_TOAST);
showTapToFocusToast();
}
}
@Override
public void onStop() {
if (mMediaProviderClient != null) {
mMediaProviderClient.release();
mMediaProviderClient = null;
}
}
// onClick handler for R.id.btn_done
@OnClickAttr
public void onReviewDoneClicked(View v) {
doAttach();
}
// onClick handler for R.id.btn_cancel
@OnClickAttr
public void onReviewCancelClicked(View v) {
doCancel();
}
// onClick handler for R.id.btn_retake
@OnClickAttr
public void onReviewRetakeClicked(View v) {
if (mPaused)
return;
hidePostCaptureAlert();
setupPreview();
}
private void doAttach() {
if (mPaused) {
return;
}
byte[] data = mJpegImageData;
if (mCropValue == null) {
// First handle the no crop case -- just return the value. If the
// caller specifies a "save uri" then write the data to its
// stream. Otherwise, pass back a scaled down version of the bitmap
// directly in the extras.
if (mSaveUri != null) {
OutputStream outputStream = null;
try {
outputStream = mContentResolver.openOutputStream(mSaveUri);
outputStream.write(data);
outputStream.close();
mActivity.setResultEx(Activity.RESULT_OK);
mActivity.finish();
} catch (IOException ex) {
// ignore exception
} finally {
Util.closeSilently(outputStream);
}
} else {
int orientation = Exif.getOrientation(data);
Bitmap bitmap = Util.makeBitmap(data, 50 * 1024);
bitmap = Util.rotate(bitmap, orientation);
mActivity.setResultEx(Activity.RESULT_OK,
new Intent("inline-data").putExtra("data", bitmap));
mActivity.finish();
}
} else {
// Save the image to a temp file and invoke the cropper
Uri tempUri = null;
FileOutputStream tempStream = null;
try {
File path = mActivity.getFileStreamPath(sTempCropFilename);
path.delete();
tempStream = mActivity.openFileOutput(sTempCropFilename, 0);
tempStream.write(data);
tempStream.close();
tempUri = Uri.fromFile(path);
} catch (FileNotFoundException ex) {
mActivity.setResultEx(Activity.RESULT_CANCELED);
mActivity.finish();
return;
} catch (IOException ex) {
mActivity.setResultEx(Activity.RESULT_CANCELED);
mActivity.finish();
return;
} finally {
Util.closeSilently(tempStream);
}
Bundle newExtras = new Bundle();
if (mCropValue.equals("circle")) {
newExtras.putString("circleCrop", "true");
}
if (mSaveUri != null) {
newExtras.putParcelable(MediaStore.EXTRA_OUTPUT, mSaveUri);
} else {
newExtras.putBoolean(CropExtras.KEY_RETURN_DATA, true);
}
if (mActivity.isSecureCamera()) {
newExtras.putBoolean(CropExtras.KEY_SHOW_WHEN_LOCKED, true);
}
Intent cropIntent = new Intent(FilterShowActivity.CROP_ACTION);
cropIntent.setData(tempUri);
cropIntent.putExtras(newExtras);
mActivity.startActivityForResult(cropIntent, REQUEST_CROP);
}
}
private void doCancel() {
mActivity.setResultEx(Activity.RESULT_CANCELED, new Intent());
mActivity.finish();
}
@Override
public void onShutterButtonFocus(boolean pressed) {
if (mPaused || collapseCameraControls()
|| (mCameraState == SNAPSHOT_IN_PROGRESS)
|| (mCameraState == PREVIEW_STOPPED)) return;
// Do not do focus if there is not enough storage.
if (pressed && !canTakePicture()) return;
if (pressed) {
if (mSceneMode == Util.SCENE_MODE_HDR) {
mActivity.hideSwitcher();
mActivity.setSwipingEnabled(false);
}
mFocusManager.onShutterDown();
} else {
mFocusManager.onShutterUp();
}
}
@Override
public void onShutterButtonClick() {
if (mPaused || collapseCameraControls()
|| (mCameraState == SWITCHING_CAMERA)
|| (mCameraState == PREVIEW_STOPPED)) return;
// Do not take the picture if there is not enough storage.
if (mActivity.getStorageSpace() <= Storage.LOW_STORAGE_THRESHOLD) {
Log.i(TAG, "Not enough space or storage not ready. remaining="
+ mActivity.getStorageSpace());
return;
}
Log.v(TAG, "onShutterButtonClick: mCameraState=" + mCameraState);
// If the user wants to do a snapshot while the previous one is still
// in progress, remember the fact and do it after we finish the previous
// one and re-start the preview. Snapshot in progress also includes the
// state that autofocus is focusing and a picture will be taken when
// focus callback arrives.
if ((mFocusManager.isFocusingSnapOnFinish() || mCameraState == SNAPSHOT_IN_PROGRESS)
&& !mIsImageCaptureIntent) {
mSnapshotOnIdle = true;
return;
}
String timer = mPreferences.getString(
CameraSettings.KEY_TIMER,
mActivity.getString(R.string.pref_camera_timer_default));
boolean playSound = mPreferences.getString(CameraSettings.KEY_TIMER_SOUND_EFFECTS,
mActivity.getString(R.string.pref_camera_timer_sound_default))
.equals(mActivity.getString(R.string.setting_on_value));
int seconds = Integer.parseInt(timer);
// When shutter button is pressed, check whether the previous countdown is
// finished. If not, cancel the previous countdown and start a new one.
if (mCountDownView.isCountingDown()) {
mCountDownView.cancelCountDown();
mCountDownView.startCountDown(seconds, playSound);
} else if (seconds > 0) {
mCountDownView.startCountDown(seconds, playSound);
} else {
mSnapshotOnIdle = false;
mFocusManager.doSnap();
}
}
@Override
public void installIntentFilter() {
}
@Override
public boolean updateStorageHintOnResume() {
return mFirstTimeInitialized;
}
@Override
public void updateCameraAppView() {
}
@Override
public void onResumeBeforeSuper() {
mPaused = false;
}
@Override
public void onResumeAfterSuper() {
if (mOpenCameraFail || mCameraDisabled) return;
mJpegPictureCallbackTime = 0;
mZoomValue = 0;
// Start the preview if it is not started.
if (mCameraState == PREVIEW_STOPPED && mCameraStartUpThread == null) {
resetExposureCompensation();
mCameraStartUpThread = new CameraStartUpThread();
mCameraStartUpThread.start();
}
// If first time initialization is not finished, put it in the
// message queue.
if (!mFirstTimeInitialized) {
mHandler.sendEmptyMessage(FIRST_TIME_INIT);
} else {
initializeSecondTime();
}
keepScreenOnAwhile();
// Dismiss open menu if exists.
PopupManager.getInstance(mActivity).notifyShowPopup(null);
}
void waitCameraStartUpThread() {
try {
if (mCameraStartUpThread != null) {
mCameraStartUpThread.cancel();
mCameraStartUpThread.join();
mCameraStartUpThread = null;
setCameraState(IDLE);
}
} catch (InterruptedException e) {
// ignore
}
}
@Override
public void onPauseBeforeSuper() {
mPaused = true;
}
@Override
public void onPauseAfterSuper() {
// Wait the camera start up thread to finish.
waitCameraStartUpThread();
// When camera is started from secure lock screen for the first time
// after screen on, the activity gets onCreate->onResume->onPause->onResume.
// To reduce the latency, keep the camera for a short time so it does
// not need to be opened again.
if (mCameraDevice != null && mActivity.isSecureCamera()
&& ActivityBase.isFirstStartAfterScreenOn()) {
ActivityBase.resetFirstStartAfterScreenOn();
CameraHolder.instance().keep(KEEP_CAMERA_TIMEOUT);
}
// Reset the focus first. Camera CTS does not guarantee that
// cancelAutoFocus is allowed after preview stops.
if (mCameraDevice != null && mCameraState != PREVIEW_STOPPED) {
mCameraDevice.cancelAutoFocus();
}
stopPreview();
mCountDownView.cancelCountDown();
// Close the camera now because other activities may need to use it.
closeCamera();
if (mSurfaceTexture != null) {
((CameraScreenNail) mActivity.mCameraScreenNail).releaseSurfaceTexture();
mSurfaceTexture = null;
}
resetScreenOn();
// Clear UI.
collapseCameraControls();
if (mFaceView != null) mFaceView.clear();
if (mFirstTimeInitialized) {
if (mImageSaver != null) {
mImageSaver.finish();
mImageSaver = null;
mImageNamer.finish();
mImageNamer = null;
}
}
if (mLocationManager != null) mLocationManager.recordLocation(false);
// If we are in an image capture intent and has taken
// a picture, we just clear it in onPause.
mJpegImageData = null;
// Remove the messages in the event queue.
mHandler.removeMessages(SETUP_PREVIEW);
mHandler.removeMessages(FIRST_TIME_INIT);
mHandler.removeMessages(CHECK_DISPLAY_ROTATION);
mHandler.removeMessages(SWITCH_CAMERA);
mHandler.removeMessages(SWITCH_CAMERA_START_ANIMATION);
mHandler.removeMessages(CAMERA_OPEN_DONE);
mHandler.removeMessages(START_PREVIEW_DONE);
mHandler.removeMessages(OPEN_CAMERA_FAIL);
mHandler.removeMessages(CAMERA_DISABLED);
mPendingSwitchCameraId = -1;
if (mFocusManager != null) mFocusManager.removeMessages();
}
private void initializeControlByIntent() {
mBlocker = mRootView.findViewById(R.id.blocker);
mMenu = mRootView.findViewById(R.id.menu);
mMenu.setOnClickListener(new OnClickListener() {
@Override
public void onClick(View v) {
if (mPieRenderer != null) {
// If autofocus is not finished, cancel autofocus so that the
// subsequent touch can be handled by PreviewGestures
if (mCameraState == FOCUSING) cancelAutoFocus();
mPieRenderer.showInCenter();
}
}
});
if (mIsImageCaptureIntent) {
mActivity.hideSwitcher();
// Cannot use RotateImageView for "done" and "cancel" button because
// the tablet layout uses RotateLayout, which cannot be cast to
// RotateImageView.
mReviewDoneButton = (Rotatable) mRootView.findViewById(R.id.btn_done);
mReviewCancelButton = (Rotatable) mRootView.findViewById(R.id.btn_cancel);
mReviewRetakeButton = mRootView.findViewById(R.id.btn_retake);
((View) mReviewCancelButton).setVisibility(View.VISIBLE);
((View) mReviewDoneButton).setOnClickListener(new OnClickListener() {
@Override
public void onClick(View v) {
onReviewDoneClicked(v);
}
});
((View) mReviewCancelButton).setOnClickListener(new OnClickListener() {
@Override
public void onClick(View v) {
onReviewCancelClicked(v);
}
});
mReviewRetakeButton.setOnClickListener(new OnClickListener() {
@Override
public void onClick(View v) {
onReviewRetakeClicked(v);
}
});
// Not grayed out upon disabled, to make the follow-up fade-out
// effect look smooth. Note that the review done button in tablet
// layout is not a TwoStateImageView.
if (mReviewDoneButton instanceof TwoStateImageView) {
((TwoStateImageView) mReviewDoneButton).enableFilter(false);
}
setupCaptureParams();
}
}
/**
* The focus manager is the first UI related element to get initialized,
* and it requires the RenderOverlay, so initialize it here
*/
private void initializeFocusManager() {
// Create FocusManager object. startPreview needs it.
mRenderOverlay = (RenderOverlay) mRootView.findViewById(R.id.render_overlay);
// if mFocusManager not null, reuse it
// otherwise create a new instance
if (mFocusManager != null) {
mFocusManager.removeMessages();
} else {
CameraInfo info = CameraHolder.instance().getCameraInfo()[mCameraId];
boolean mirror = (info.facing == CameraInfo.CAMERA_FACING_FRONT);
String[] defaultFocusModes = mActivity.getResources().getStringArray(
R.array.pref_camera_focusmode_default_array);
mFocusManager = new FocusOverlayManager(mPreferences, defaultFocusModes,
mInitialParams, this, mirror,
mActivity.getMainLooper());
}
}
private void initializeMiscControls() {
// startPreview needs this.
mPreviewFrameLayout = (PreviewFrameLayout) mRootView.findViewById(R.id.frame);
// Set touch focus listener.
mActivity.setSingleTapUpListener(mPreviewFrameLayout);
mFaceView = (FaceView) mRootView.findViewById(R.id.face_view);
mPreviewFrameLayout.setOnSizeChangedListener(this);
mPreviewFrameLayout.setOnLayoutChangeListener(mActivity);
if (!ApiHelper.HAS_SURFACE_TEXTURE) {
mPreviewSurfaceView =
(PreviewSurfaceView) mRootView.findViewById(R.id.preview_surface_view);
mPreviewSurfaceView.setVisibility(View.VISIBLE);
mPreviewSurfaceView.getHolder().addCallback(this);
}
}
@Override
public void onConfigurationChanged(Configuration newConfig) {
Log.v(TAG, "onConfigurationChanged");
setDisplayOrientation();
// Only the views in photo_module_content need to be removed and recreated
// i.e. CountDownView won't be recreated
ViewGroup viewGroup = (ViewGroup) mRootView.findViewById(R.id.camera_app);
viewGroup.removeAllViews();
LayoutInflater inflater = mActivity.getLayoutInflater();
inflater.inflate(R.layout.photo_module_content, (ViewGroup) viewGroup);
// from onCreate()
initializeControlByIntent();
initializeFocusManager();
initializeMiscControls();
loadCameraPreferences();
// from initializeFirstTime()
mShutterButton = mActivity.getShutterButton();
mShutterButton.setOnShutterButtonListener(this);
initializeZoom();
initOnScreenIndicator();
updateOnScreenIndicators();
if (mFaceView != null) {
mFaceView.clear();
mFaceView.setVisibility(View.VISIBLE);
mFaceView.setDisplayOrientation(mDisplayOrientation);
CameraInfo info = CameraHolder.instance().getCameraInfo()[mCameraId];
mFaceView.setMirror(info.facing == CameraInfo.CAMERA_FACING_FRONT);
mFaceView.resume();
mFocusManager.setFaceView(mFaceView);
}
initializeRenderOverlay();
onFullScreenChanged(mActivity.isInCameraApp());
if (mJpegImageData != null) { // Jpeg data found, picture has been taken.
showPostCaptureAlert();
}
}
@Override
public void onActivityResult(
int requestCode, int resultCode, Intent data) {
switch (requestCode) {
case REQUEST_CROP: {
Intent intent = new Intent();
if (data != null) {
Bundle extras = data.getExtras();
if (extras != null) {
intent.putExtras(extras);
}
}
mActivity.setResultEx(resultCode, intent);
mActivity.finish();
File path = mActivity.getFileStreamPath(sTempCropFilename);
path.delete();
break;
}
}
}
private boolean canTakePicture() {
return isCameraIdle() && (mActivity.getStorageSpace() > Storage.LOW_STORAGE_THRESHOLD);
}
@Override
public void autoFocus() {
mFocusStartTime = System.currentTimeMillis();
mCameraDevice.autoFocus(mAutoFocusCallback);
setCameraState(FOCUSING);
}
@Override
public void cancelAutoFocus() {
mCameraDevice.cancelAutoFocus();
setCameraState(IDLE);
setCameraParameters(UPDATE_PARAM_PREFERENCE);
}
// Preview area is touched. Handle touch focus.
@Override
public void onSingleTapUp(View view, int x, int y) {
if (mPaused || mCameraDevice == null || !mFirstTimeInitialized
|| mCameraState == SNAPSHOT_IN_PROGRESS
|| mCameraState == SWITCHING_CAMERA
|| mCameraState == PREVIEW_STOPPED) {
return;
}
// Do not trigger touch focus if popup window is opened.
if (removeTopLevelPopup()) return;
// Check if metering area or focus area is supported.
if (!mFocusAreaSupported && !mMeteringAreaSupported) return;
mFocusManager.onSingleTapUp(x, y);
}
@Override
public boolean onBackPressed() {
if (mPieRenderer != null && mPieRenderer.showsItems()) {
mPieRenderer.hide();
return true;
}
// In image capture mode, back button should:
// 1) if there is any popup, dismiss them, 2) otherwise, get out of image capture
if (mIsImageCaptureIntent) {
if (!removeTopLevelPopup()) {
// no popup to dismiss, cancel image capture
doCancel();
}
return true;
} else if (!isCameraIdle()) {
// ignore backs while we're taking a picture
return true;
} else {
return removeTopLevelPopup();
}
}
@Override
public boolean onKeyDown(int keyCode, KeyEvent event) {
switch (keyCode) {
case KeyEvent.KEYCODE_VOLUME_UP:
case KeyEvent.KEYCODE_VOLUME_DOWN:
case KeyEvent.KEYCODE_FOCUS:
if (mActivity.isInCameraApp() && mFirstTimeInitialized) {
if (event.getRepeatCount() == 0) {
onShutterButtonFocus(true);
}
return true;
}
return false;
case KeyEvent.KEYCODE_CAMERA:
if (mFirstTimeInitialized && event.getRepeatCount() == 0) {
onShutterButtonClick();
}
return true;
case KeyEvent.KEYCODE_DPAD_CENTER:
// If we get a dpad center event without any focused view, move
// the focus to the shutter button and press it.
if (mFirstTimeInitialized && event.getRepeatCount() == 0) {
// Start auto-focus immediately to reduce shutter lag. After
// the shutter button gets the focus, onShutterButtonFocus()
// will be called again but it is fine.
if (removeTopLevelPopup()) return true;
onShutterButtonFocus(true);
if (mShutterButton.isInTouchMode()) {
mShutterButton.requestFocusFromTouch();
} else {
mShutterButton.requestFocus();
}
mShutterButton.setPressed(true);
}
return true;
}
return false;
}
@Override
public boolean onKeyUp(int keyCode, KeyEvent event) {
switch (keyCode) {
case KeyEvent.KEYCODE_VOLUME_UP:
case KeyEvent.KEYCODE_VOLUME_DOWN:
if (mActivity.isInCameraApp() && mFirstTimeInitialized) {
onShutterButtonClick();
return true;
}
return false;
case KeyEvent.KEYCODE_FOCUS:
if (mFirstTimeInitialized) {
onShutterButtonFocus(false);
}
return true;
}
return false;
}
@TargetApi(ApiHelper.VERSION_CODES.ICE_CREAM_SANDWICH)
private void closeCamera() {
if (mCameraDevice != null) {
mCameraDevice.setZoomChangeListener(null);
if(ApiHelper.HAS_FACE_DETECTION) {
mCameraDevice.setFaceDetectionListener(null);
}
mCameraDevice.setErrorCallback(null);
CameraHolder.instance().release();
mFaceDetectionStarted = false;
mCameraDevice = null;
setCameraState(PREVIEW_STOPPED);
mFocusManager.onCameraReleased();
}
}
private void setDisplayOrientation() {
mDisplayRotation = Util.getDisplayRotation(mActivity);
mDisplayOrientation = Util.getDisplayOrientation(mDisplayRotation, mCameraId);
mCameraDisplayOrientation = Util.getDisplayOrientation(0, mCameraId);
if (mFaceView != null) {
mFaceView.setDisplayOrientation(mDisplayOrientation);
}
if (mFocusManager != null) {
mFocusManager.setDisplayOrientation(mDisplayOrientation);
}
// GLRoot also uses the DisplayRotation, and needs to be told to layout to update
mActivity.getGLRoot().requestLayoutContentPane();
}
// Only called by UI thread.
private void setupPreview() {
mFocusManager.resetTouchFocus();
startPreview();
setCameraState(IDLE);
startFaceDetection();
}
// This can be called by UI Thread or CameraStartUpThread. So this should
// not modify the views.
private void startPreview() {
mCameraDevice.setErrorCallback(mErrorCallback);
// ICS camera frameworks has a bug. Face detection state is not cleared
// after taking a picture. Stop the preview to work around it. The bug
// was fixed in JB.
if (mCameraState != PREVIEW_STOPPED) stopPreview();
setDisplayOrientation();
if (!mSnapshotOnIdle) {
// If the focus mode is continuous autofocus, call cancelAutoFocus to
// resume it because it may have been paused by autoFocus call.
if (Util.FOCUS_MODE_CONTINUOUS_PICTURE.equals(mFocusManager.getFocusMode())) {
mCameraDevice.cancelAutoFocus();
}
mFocusManager.setAeAwbLock(false); // Unlock AE and AWB.
}
setCameraParameters(UPDATE_PARAM_ALL);
if (ApiHelper.HAS_SURFACE_TEXTURE) {
CameraScreenNail screenNail = (CameraScreenNail) mActivity.mCameraScreenNail;
if (mSurfaceTexture == null) {
Size size = mParameters.getPreviewSize();
if (mCameraDisplayOrientation % 180 == 0) {
screenNail.setSize(size.width, size.height);
} else {
screenNail.setSize(size.height, size.width);
}
screenNail.enableAspectRatioClamping();
mActivity.notifyScreenNailChanged();
screenNail.acquireSurfaceTexture();
mSurfaceTexture = screenNail.getSurfaceTexture();
}
mCameraDevice.setDisplayOrientation(mCameraDisplayOrientation);
if (mSurfaceTexture != null) {
mCameraDevice.setPreviewTextureAsync((SurfaceTexture) mSurfaceTexture);
}
} else {
mCameraDevice.setDisplayOrientation(mDisplayOrientation);
mCameraDevice.setPreviewDisplayAsync(mCameraSurfaceHolder);
}
Log.v(TAG, "startPreview");
mCameraDevice.startPreviewAsync();
mFocusManager.onPreviewStarted();
if (mSnapshotOnIdle) {
mHandler.post(mDoSnapRunnable);
}
}
private void stopPreview() {
if (mCameraDevice != null && mCameraState != PREVIEW_STOPPED) {
Log.v(TAG, "stopPreview");
mCameraDevice.stopPreview();
mFaceDetectionStarted = false;
}
setCameraState(PREVIEW_STOPPED);
if (mFocusManager != null) mFocusManager.onPreviewStopped();
}
@SuppressWarnings("deprecation")
private void updateCameraParametersInitialize() {
// Reset preview frame rate to the maximum because it may be lowered by
// video camera application.
List<Integer> frameRates = mParameters.getSupportedPreviewFrameRates();
if (frameRates != null) {
Integer max = Collections.max(frameRates);
mParameters.setPreviewFrameRate(max);
}
mParameters.set(Util.RECORDING_HINT, Util.FALSE);
// Disable video stabilization. Convenience methods not available in API
// level <= 14
String vstabSupported = mParameters.get("video-stabilization-supported");
if ("true".equals(vstabSupported)) {
mParameters.set("video-stabilization", "false");
}
}
private void updateCameraParametersZoom() {
// Set zoom.
if (mParameters.isZoomSupported()) {
mParameters.setZoom(mZoomValue);
}
}
@TargetApi(ApiHelper.VERSION_CODES.JELLY_BEAN)
private void setAutoExposureLockIfSupported() {
if (mAeLockSupported) {
mParameters.setAutoExposureLock(mFocusManager.getAeAwbLock());
}
}
@TargetApi(ApiHelper.VERSION_CODES.JELLY_BEAN)
private void setAutoWhiteBalanceLockIfSupported() {
if (mAwbLockSupported) {
mParameters.setAutoWhiteBalanceLock(mFocusManager.getAeAwbLock());
}
}
@TargetApi(ApiHelper.VERSION_CODES.ICE_CREAM_SANDWICH)
private void setFocusAreasIfSupported() {
if (mFocusAreaSupported) {
mParameters.setFocusAreas(mFocusManager.getFocusAreas());
}
}
@TargetApi(ApiHelper.VERSION_CODES.ICE_CREAM_SANDWICH)
private void setMeteringAreasIfSupported() {
if (mMeteringAreaSupported) {
// Use the same area for focus and metering.
mParameters.setMeteringAreas(mFocusManager.getMeteringAreas());
}
}
private void updateCameraParametersPreference() {
setAutoExposureLockIfSupported();
setAutoWhiteBalanceLockIfSupported();
setFocusAreasIfSupported();
setMeteringAreasIfSupported();
// Set picture size.
String pictureSize = mPreferences.getString(
CameraSettings.KEY_PICTURE_SIZE, null);
if (pictureSize == null) {
CameraSettings.initialCameraPictureSize(mActivity, mParameters);
} else {
List<Size> supported = mParameters.getSupportedPictureSizes();
CameraSettings.setCameraPictureSize(
pictureSize, supported, mParameters);
}
Size size = mParameters.getPictureSize();
// Set a preview size that is closest to the viewfinder height and has
// the right aspect ratio.
List<Size> sizes = mParameters.getSupportedPreviewSizes();
Size optimalSize = Util.getOptimalPreviewSize(mActivity, sizes,
(double) size.width / size.height);
Size original = mParameters.getPreviewSize();
if (!original.equals(optimalSize)) {
mParameters.setPreviewSize(optimalSize.width, optimalSize.height);
// Zoom related settings will be changed for different preview
// sizes, so set and read the parameters to get latest values
mCameraDevice.setParameters(mParameters);
mParameters = mCameraDevice.getParameters();
}
Log.v(TAG, "Preview size is " + optimalSize.width + "x" + optimalSize.height);
// Since changing scene mode may change supported values, set scene mode
// first. HDR is a scene mode. To promote it in UI, it is stored in a
// separate preference.
String hdr = mPreferences.getString(CameraSettings.KEY_CAMERA_HDR,
mActivity.getString(R.string.pref_camera_hdr_default));
if (mActivity.getString(R.string.setting_on_value).equals(hdr)) {
mSceneMode = Util.SCENE_MODE_HDR;
} else {
mSceneMode = mPreferences.getString(
CameraSettings.KEY_SCENE_MODE,
mActivity.getString(R.string.pref_camera_scenemode_default));
}
if (Util.isSupported(mSceneMode, mParameters.getSupportedSceneModes())) {
if (!mParameters.getSceneMode().equals(mSceneMode)) {
mParameters.setSceneMode(mSceneMode);
// Setting scene mode will change the settings of flash mode,
// white balance, and focus mode. Here we read back the
// parameters, so we can know those settings.
mCameraDevice.setParameters(mParameters);
mParameters = mCameraDevice.getParameters();
}
} else {
mSceneMode = mParameters.getSceneMode();
if (mSceneMode == null) {
mSceneMode = Parameters.SCENE_MODE_AUTO;
}
}
// Set JPEG quality.
int jpegQuality = CameraProfile.getJpegEncodingQualityParameter(mCameraId,
CameraProfile.QUALITY_HIGH);
mParameters.setJpegQuality(jpegQuality);
// For the following settings, we need to check if the settings are
// still supported by latest driver, if not, ignore the settings.
// Set exposure compensation
int value = CameraSettings.readExposure(mPreferences);
int max = mParameters.getMaxExposureCompensation();
int min = mParameters.getMinExposureCompensation();
if (value >= min && value <= max) {
mParameters.setExposureCompensation(value);
} else {
Log.w(TAG, "invalid exposure range: " + value);
}
if (Parameters.SCENE_MODE_AUTO.equals(mSceneMode)) {
// Set flash mode.
String flashMode = mPreferences.getString(
CameraSettings.KEY_FLASH_MODE,
mActivity.getString(R.string.pref_camera_flashmode_default));
List<String> supportedFlash = mParameters.getSupportedFlashModes();
if (Util.isSupported(flashMode, supportedFlash)) {
mParameters.setFlashMode(flashMode);
} else {
flashMode = mParameters.getFlashMode();
if (flashMode == null) {
flashMode = mActivity.getString(
R.string.pref_camera_flashmode_no_flash);
}
}
// Set white balance parameter.
String whiteBalance = mPreferences.getString(
CameraSettings.KEY_WHITE_BALANCE,
mActivity.getString(R.string.pref_camera_whitebalance_default));
if (Util.isSupported(whiteBalance,
mParameters.getSupportedWhiteBalance())) {
mParameters.setWhiteBalance(whiteBalance);
} else {
whiteBalance = mParameters.getWhiteBalance();
if (whiteBalance == null) {
whiteBalance = Parameters.WHITE_BALANCE_AUTO;
}
}
// Set focus mode.
mFocusManager.overrideFocusMode(null);
mParameters.setFocusMode(mFocusManager.getFocusMode());
} else {
mFocusManager.overrideFocusMode(mParameters.getFocusMode());
}
if (mContinousFocusSupported && ApiHelper.HAS_AUTO_FOCUS_MOVE_CALLBACK) {
updateAutoFocusMoveCallback();
}
}
@TargetApi(ApiHelper.VERSION_CODES.JELLY_BEAN)
private void updateAutoFocusMoveCallback() {
if (mParameters.getFocusMode().equals(Util.FOCUS_MODE_CONTINUOUS_PICTURE)) {
mCameraDevice.setAutoFocusMoveCallback(
(AutoFocusMoveCallback) mAutoFocusMoveCallback);
} else {
mCameraDevice.setAutoFocusMoveCallback(null);
}
}
// We separate the parameters into several subsets, so we can update only
// the subsets actually need updating. The PREFERENCE set needs extra
// locking because the preference can be changed from GLThread as well.
private void setCameraParameters(int updateSet) {
if ((updateSet & UPDATE_PARAM_INITIALIZE) != 0) {
updateCameraParametersInitialize();
}
if ((updateSet & UPDATE_PARAM_ZOOM) != 0) {
updateCameraParametersZoom();
}
if ((updateSet & UPDATE_PARAM_PREFERENCE) != 0) {
updateCameraParametersPreference();
}
mCameraDevice.setParameters(mParameters);
}
// If the Camera is idle, update the parameters immediately, otherwise
// accumulate them in mUpdateSet and update later.
private void setCameraParametersWhenIdle(int additionalUpdateSet) {
mUpdateSet |= additionalUpdateSet;
if (mCameraDevice == null) {
// We will update all the parameters when we open the device, so
// we don't need to do anything now.
mUpdateSet = 0;
return;
} else if (isCameraIdle()) {
setCameraParameters(mUpdateSet);
updateSceneModeUI();
mUpdateSet = 0;
} else {
if (!mHandler.hasMessages(SET_CAMERA_PARAMETERS_WHEN_IDLE)) {
mHandler.sendEmptyMessageDelayed(
SET_CAMERA_PARAMETERS_WHEN_IDLE, 1000);
}
}
}
private boolean isCameraIdle() {
return (mCameraState == IDLE) ||
(mCameraState == PREVIEW_STOPPED) ||
((mFocusManager != null) && mFocusManager.isFocusCompleted()
&& (mCameraState != SWITCHING_CAMERA));
}
private boolean isImageCaptureIntent() {
String action = mActivity.getIntent().getAction();
return (MediaStore.ACTION_IMAGE_CAPTURE.equals(action)
|| ActivityBase.ACTION_IMAGE_CAPTURE_SECURE.equals(action));
}
private void setupCaptureParams() {
Bundle myExtras = mActivity.getIntent().getExtras();
if (myExtras != null) {
mSaveUri = (Uri) myExtras.getParcelable(MediaStore.EXTRA_OUTPUT);
mCropValue = myExtras.getString("crop");
}
}
private void showPostCaptureAlert() {
if (mIsImageCaptureIntent) {
mOnScreenIndicators.setVisibility(View.GONE);
mMenu.setVisibility(View.GONE);
Util.fadeIn((View) mReviewDoneButton);
mShutterButton.setVisibility(View.INVISIBLE);
Util.fadeIn(mReviewRetakeButton);
}
}
private void hidePostCaptureAlert() {
if (mIsImageCaptureIntent) {
mOnScreenIndicators.setVisibility(View.VISIBLE);
mMenu.setVisibility(View.VISIBLE);
Util.fadeOut((View) mReviewDoneButton);
mShutterButton.setVisibility(View.VISIBLE);
Util.fadeOut(mReviewRetakeButton);
}
}
@Override
public void onSharedPreferenceChanged() {
// ignore the events after "onPause()"
if (mPaused) return;
boolean recordLocation = RecordLocationPreference.get(
mPreferences, mContentResolver);
mLocationManager.recordLocation(recordLocation);
setCameraParametersWhenIdle(UPDATE_PARAM_PREFERENCE);
setPreviewFrameLayoutAspectRatio();
updateOnScreenIndicators();
}
@Override
public void onCameraPickerClicked(int cameraId) {
if (mPaused || mPendingSwitchCameraId != -1) return;
mPendingSwitchCameraId = cameraId;
if (ApiHelper.HAS_SURFACE_TEXTURE) {
Log.v(TAG, "Start to copy texture. cameraId=" + cameraId);
// We need to keep a preview frame for the animation before
// releasing the camera. This will trigger onPreviewTextureCopied.
((CameraScreenNail) mActivity.mCameraScreenNail).copyTexture();
// Disable all camera controls.
setCameraState(SWITCHING_CAMERA);
} else {
switchCamera();
}
}
private void switchCamera() {
if (mPaused) return;
Log.v(TAG, "Start to switch camera. id=" + mPendingSwitchCameraId);
mCameraId = mPendingSwitchCameraId;
mPendingSwitchCameraId = -1;
mPhotoControl.setCameraId(mCameraId);
// from onPause
closeCamera();
collapseCameraControls();
if (mFaceView != null) mFaceView.clear();
if (mFocusManager != null) mFocusManager.removeMessages();
// Restart the camera and initialize the UI. From onCreate.
mPreferences.setLocalId(mActivity, mCameraId);
CameraSettings.upgradeLocalPreferences(mPreferences.getLocal());
try {
mCameraDevice = Util.openCamera(mActivity, mCameraId);
mParameters = mCameraDevice.getParameters();
} catch (CameraHardwareException e) {
Util.showErrorAndFinish(mActivity, R.string.cannot_connect_camera);
return;
} catch (CameraDisabledException e) {
Util.showErrorAndFinish(mActivity, R.string.camera_disabled);
return;
}
initializeCapabilities();
CameraInfo info = CameraHolder.instance().getCameraInfo()[mCameraId];
boolean mirror = (info.facing == CameraInfo.CAMERA_FACING_FRONT);
mFocusManager.setMirror(mirror);
mFocusManager.setParameters(mInitialParams);
setupPreview();
loadCameraPreferences();
initializePhotoControl();
// from initializeFirstTime
initializeZoom();
updateOnScreenIndicators();
showTapToFocusToastIfNeeded();
if (ApiHelper.HAS_SURFACE_TEXTURE) {
// Start switch camera animation. Post a message because
// onFrameAvailable from the old camera may already exist.
mHandler.sendEmptyMessage(SWITCH_CAMERA_START_ANIMATION);
}
}
@Override
public void onPieOpened(int centerX, int centerY) {
mActivity.cancelActivityTouchHandling();
mActivity.setSwipingEnabled(false);
if (mFaceView != null) {
mFaceView.setBlockDraw(true);
}
}
@Override
public void onPieClosed() {
mActivity.setSwipingEnabled(true);
if (mFaceView != null) {
mFaceView.setBlockDraw(false);
}
}
// Preview texture has been copied. Now camera can be released and the
// animation can be started.
@Override
public void onPreviewTextureCopied() {
mHandler.sendEmptyMessage(SWITCH_CAMERA);
}
@Override
public void onCaptureTextureCopied() {
}
@Override
public void onUserInteraction() {
if (!mActivity.isFinishing()) keepScreenOnAwhile();
}
private void resetScreenOn() {
mHandler.removeMessages(CLEAR_SCREEN_DELAY);
mActivity.getWindow().clearFlags(WindowManager.LayoutParams.FLAG_KEEP_SCREEN_ON);
}
private void keepScreenOnAwhile() {
mHandler.removeMessages(CLEAR_SCREEN_DELAY);
mActivity.getWindow().addFlags(WindowManager.LayoutParams.FLAG_KEEP_SCREEN_ON);
mHandler.sendEmptyMessageDelayed(CLEAR_SCREEN_DELAY, SCREEN_DELAY);
}
// TODO: Delete this function after old camera code is removed
@Override
public void onRestorePreferencesClicked() {
}
@Override
public void onOverriddenPreferencesClicked() {
if (mPaused) return;
if (mNotSelectableToast == null) {
String str = mActivity.getResources().getString(R.string.not_selectable_in_scene_mode);
mNotSelectableToast = Toast.makeText(mActivity, str, Toast.LENGTH_SHORT);
}
mNotSelectableToast.show();
}
private void showTapToFocusToast() {
// TODO: Use a toast?
new RotateTextToast(mActivity, R.string.tap_to_focus, 0).show();
// Clear the preference.
Editor editor = mPreferences.edit();
editor.putBoolean(CameraSettings.KEY_CAMERA_FIRST_USE_HINT_SHOWN, false);
editor.apply();
}
private void initializeCapabilities() {
mInitialParams = mCameraDevice.getParameters();
mFocusAreaSupported = Util.isFocusAreaSupported(mInitialParams);
mMeteringAreaSupported = Util.isMeteringAreaSupported(mInitialParams);
mAeLockSupported = Util.isAutoExposureLockSupported(mInitialParams);
mAwbLockSupported = Util.isAutoWhiteBalanceLockSupported(mInitialParams);
mContinousFocusSupported = mInitialParams.getSupportedFocusModes().contains(
Util.FOCUS_MODE_CONTINUOUS_PICTURE);
}
// PreviewFrameLayout size has changed.
@Override
public void onSizeChanged(int width, int height) {
if (mFocusManager != null) mFocusManager.setPreviewSize(width, height);
}
@Override
public void onCountDownFinished() {
mSnapshotOnIdle = false;
mFocusManager.doSnap();
}
void setPreviewFrameLayoutAspectRatio() {
// Set the preview frame aspect ratio according to the picture size.
Size size = mParameters.getPictureSize();
mPreviewFrameLayout.setAspectRatio((double) size.width / size.height);
}
@Override
public boolean needsSwitcher() {
return !mIsImageCaptureIntent;
}
public void showPopup(AbstractSettingPopup popup) {
mActivity.hideUI();
mBlocker.setVisibility(View.INVISIBLE);
setShowMenu(false);
mPopup = popup;
mPopup.setVisibility(View.VISIBLE);
FrameLayout.LayoutParams lp = new FrameLayout.LayoutParams(LayoutParams.WRAP_CONTENT,
LayoutParams.WRAP_CONTENT);
lp.gravity = Gravity.CENTER;
((FrameLayout) mRootView).addView(mPopup, lp);
}
public void dismissPopup(boolean topPopupOnly) {
dismissPopup(topPopupOnly, true);
}
private void dismissPopup(boolean topOnly, boolean fullScreen) {
if (fullScreen) {
mActivity.showUI();
mBlocker.setVisibility(View.VISIBLE);
}
setShowMenu(fullScreen);
if (mPopup != null) {
((FrameLayout) mRootView).removeView(mPopup);
mPopup = null;
}
mPhotoControl.popupDismissed(topOnly);
}
@Override
public void onShowSwitcherPopup() {
if (mPieRenderer != null && mPieRenderer.showsItems()) {
mPieRenderer.hide();
}
}
}