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android / platform / packages / apps / Camera / 8eae48b / . / src / com / android / camera / VideoModule.java
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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.content.ActivityNotFoundException;
import android.content.BroadcastReceiver;
import android.content.ContentResolver;
import android.content.ContentValues;
import android.content.Context;
import android.content.Intent;
import android.content.IntentFilter;
import android.content.SharedPreferences.Editor;
import android.content.res.Configuration;
import android.graphics.Bitmap;
import android.hardware.Camera.CameraInfo;
import android.hardware.Camera.Parameters;
import android.hardware.Camera.PictureCallback;
import android.hardware.Camera.Size;
import android.location.Location;
import android.media.CamcorderProfile;
import android.media.CameraProfile;
import android.media.MediaRecorder;
import android.net.Uri;
import android.os.Build;
import android.os.Bundle;
import android.os.Handler;
import android.os.Message;
import android.os.ParcelFileDescriptor;
import android.os.SystemClock;
import android.provider.MediaStore;
import android.provider.MediaStore.Video;
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.LinearLayout;
import android.widget.TextView;
import android.widget.Toast;
import com.android.camera.ui.AbstractSettingPopup;
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.RotateImageView;
import com.android.camera.ui.RotateLayout;
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 java.io.File;
import java.io.IOException;
import java.text.SimpleDateFormat;
import java.util.Date;
import java.util.Iterator;
import java.util.List;
public class VideoModule implements CameraModule,
CameraPreference.OnPreferenceChangedListener,
ShutterButton.OnShutterButtonListener,
MediaRecorder.OnErrorListener,
MediaRecorder.OnInfoListener,
EffectsRecorder.EffectsListener,
PieRenderer.PieListener {
private static final String TAG = "CAM_VideoModule";
// We number the request code from 1000 to avoid collision with Gallery.
private static final int REQUEST_EFFECT_BACKDROPPER = 1000;
private static final int CHECK_DISPLAY_ROTATION = 3;
private static final int CLEAR_SCREEN_DELAY = 4;
private static final int UPDATE_RECORD_TIME = 5;
private static final int ENABLE_SHUTTER_BUTTON = 6;
private static final int SHOW_TAP_TO_SNAPSHOT_TOAST = 7;
private static final int SWITCH_CAMERA = 8;
private static final int SWITCH_CAMERA_START_ANIMATION = 9;
private static final int HIDE_SURFACE_VIEW = 10;
private static final int SCREEN_DELAY = 2 * 60 * 1000;
private static final long SHUTTER_BUTTON_TIMEOUT = 500L; // 500ms
/**
* An unpublished intent flag requesting to start recording straight away
* and return as soon as recording is stopped.
* TODO: consider publishing by moving into MediaStore.
*/
private static final String EXTRA_QUICK_CAPTURE =
"android.intent.extra.quickCapture";
private static final int MIN_THUMB_SIZE = 64;
// module fields
private CameraActivity mActivity;
private View mRootView;
private boolean mPaused;
private int mCameraId;
private Parameters mParameters;
private boolean mSnapshotInProgress = false;
private static final String EFFECT_BG_FROM_GALLERY = "gallery";
private final CameraErrorCallback mErrorCallback = new CameraErrorCallback();
private ComboPreferences mPreferences;
private PreferenceGroup mPreferenceGroup;
private PreviewFrameLayout mPreviewFrameLayout;
private boolean mSurfaceViewReady;
private SurfaceHolder.Callback mSurfaceViewCallback;
private PreviewSurfaceView mPreviewSurfaceView;
private CameraScreenNail.OnFrameDrawnListener mFrameDrawnListener;
private View mReviewControl;
// An review image having same size as preview. It is displayed when
// recording is stopped in capture intent.
private ImageView mReviewImage;
private Rotatable mReviewCancelButton;
private Rotatable mReviewDoneButton;
private RotateImageView mReviewPlayButton;
private ShutterButton mShutterButton;
private TextView mRecordingTimeView;
private RotateLayout mBgLearningMessageRotater;
private View mBgLearningMessageFrame;
private LinearLayout mLabelsLinearLayout;
private boolean mIsVideoCaptureIntent;
private boolean mQuickCapture;
private MediaRecorder mMediaRecorder;
private EffectsRecorder mEffectsRecorder;
private boolean mEffectsDisplayResult;
private int mEffectType = EffectsRecorder.EFFECT_NONE;
private Object mEffectParameter = null;
private String mEffectUriFromGallery = null;
private String mPrefVideoEffectDefault;
private boolean mResetEffect = true;
private boolean mSwitchingCamera;
private boolean mMediaRecorderRecording = false;
private long mRecordingStartTime;
private boolean mRecordingTimeCountsDown = false;
private RotateLayout mRecordingTimeRect;
private long mOnResumeTime;
// The video file that the hardware camera is about to record into
// (or is recording into.)
private String mVideoFilename;
private ParcelFileDescriptor mVideoFileDescriptor;
// The video file that has already been recorded, and that is being
// examined by the user.
private String mCurrentVideoFilename;
private Uri mCurrentVideoUri;
private ContentValues mCurrentVideoValues;
private CamcorderProfile mProfile;
// The video duration limit. 0 menas no limit.
private int mMaxVideoDurationInMs;
// Time Lapse parameters.
private boolean mCaptureTimeLapse = false;
// Default 0. If it is larger than 0, the camcorder is in time lapse mode.
private int mTimeBetweenTimeLapseFrameCaptureMs = 0;
private View mTimeLapseLabel;
private int mDesiredPreviewWidth;
private int mDesiredPreviewHeight;
boolean mPreviewing = false; // True if preview is started.
// The display rotation in degrees. This is only valid when mPreviewing is
// true.
private int mDisplayRotation;
private int mCameraDisplayOrientation;
private ContentResolver mContentResolver;
private LocationManager mLocationManager;
private VideoNamer mVideoNamer;
private RenderOverlay mRenderOverlay;
private PieRenderer mPieRenderer;
private VideoController mVideoControl;
private AbstractSettingPopup mPopup;
private int mPendingSwitchCameraId;
private ZoomRenderer mZoomRenderer;
private PreviewGestures mGestures;
private View mMenu;
private View mBlocker;
private View mOnScreenIndicators;
private ImageView mFlashIndicator;
private final Handler mHandler = new MainHandler();
// The degrees of the device rotated clockwise from its natural orientation.
private int mOrientation = OrientationEventListener.ORIENTATION_UNKNOWN;
private int mZoomValue; // The current zoom value.
private int mZoomMax;
private List<Integer> mZoomRatios;
private boolean mRestoreFlash; // This is used to check if we need to restore the flash
// status when going back from gallery.
protected class CameraOpenThread extends Thread {
@Override
public void run() {
openCamera();
}
}
private void openCamera() {
try {
mActivity.mCameraDevice = Util.openCamera(mActivity, mCameraId);
mParameters = mActivity.mCameraDevice.getParameters();
} catch (CameraHardwareException e) {
mActivity.mOpenCameraFail = true;
} catch (CameraDisabledException e) {
mActivity.mCameraDisabled = true;
}
}
// 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 ENABLE_SHUTTER_BUTTON:
mShutterButton.setEnabled(true);
break;
case CLEAR_SCREEN_DELAY: {
mActivity.getWindow().clearFlags(
WindowManager.LayoutParams.FLAG_KEEP_SCREEN_ON);
break;
}
case UPDATE_RECORD_TIME: {
updateRecordingTime();
break;
}
case CHECK_DISPLAY_ROTATION: {
// Restart the preview 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)
&& !mMediaRecorderRecording && !mSwitchingCamera) {
startPreview();
}
if (SystemClock.uptimeMillis() - mOnResumeTime < 5000) {
mHandler.sendEmptyMessageDelayed(CHECK_DISPLAY_ROTATION, 100);
}
break;
}
case SHOW_TAP_TO_SNAPSHOT_TOAST: {
showTapToSnapshotToast();
break;
}
case SWITCH_CAMERA: {
switchCamera();
break;
}
case SWITCH_CAMERA_START_ANIMATION: {
((CameraScreenNail) mActivity.mCameraScreenNail).animateSwitchCamera();
// Enable all camera controls.
mSwitchingCamera = false;
break;
}
case HIDE_SURFACE_VIEW: {
mPreviewSurfaceView.setVisibility(View.GONE);
break;
}
default:
Log.v(TAG, "Unhandled message: " + msg.what);
break;
}
}
}
private BroadcastReceiver mReceiver = null;
private class MyBroadcastReceiver extends BroadcastReceiver {
@Override
public void onReceive(Context context, Intent intent) {
String action = intent.getAction();
if (action.equals(Intent.ACTION_MEDIA_EJECT)) {
stopVideoRecording();
} else if (action.equals(Intent.ACTION_MEDIA_SCANNER_STARTED)) {
Toast.makeText(mActivity,
mActivity.getResources().getString(R.string.wait), Toast.LENGTH_LONG).show();
}
}
}
private String createName(long dateTaken) {
Date date = new Date(dateTaken);
SimpleDateFormat dateFormat = new SimpleDateFormat(
mActivity.getString(R.string.video_file_name_format));
return dateFormat.format(date);
}
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 initializeSurfaceView() {
mPreviewSurfaceView = (PreviewSurfaceView) mRootView.findViewById(R.id.preview_surface_view);
if (!ApiHelper.HAS_SURFACE_TEXTURE) { // API level < 11
if (mSurfaceViewCallback == null) {
mSurfaceViewCallback = new SurfaceViewCallback();
}
mPreviewSurfaceView.getHolder().addCallback(mSurfaceViewCallback);
mPreviewSurfaceView.setVisibility(View.VISIBLE);
} else if (!ApiHelper.HAS_SURFACE_TEXTURE_RECORDING) { // API level < 16
if (mSurfaceViewCallback == null) {
mSurfaceViewCallback = new SurfaceViewCallback();
mFrameDrawnListener = new CameraScreenNail.OnFrameDrawnListener() {
@Override
public void onFrameDrawn(CameraScreenNail c) {
mHandler.sendEmptyMessage(HIDE_SURFACE_VIEW);
}
};
}
mPreviewSurfaceView.getHolder().addCallback(mSurfaceViewCallback);
}
}
private void initializeOverlay() {
mRenderOverlay = (RenderOverlay) mRootView.findViewById(R.id.render_overlay);
if (mPieRenderer == null) {
mPieRenderer = new PieRenderer(mActivity);
mVideoControl = new VideoController(mActivity, this, mPieRenderer);
mVideoControl.setListener(this);
mPieRenderer.setPieListener(this);
}
mRenderOverlay.addRenderer(mPieRenderer);
if (mZoomRenderer == null) {
mZoomRenderer = new ZoomRenderer(mActivity);
}
mRenderOverlay.addRenderer(mZoomRenderer);
if (mGestures == null) {
mGestures = new PreviewGestures(mActivity, this, mZoomRenderer, mPieRenderer);
}
mGestures.setRenderOverlay(mRenderOverlay);
mGestures.clearTouchReceivers();
mGestures.addTouchReceiver(mMenu);
mGestures.addTouchReceiver(mBlocker);
if (isVideoCaptureIntent()) {
if (mReviewCancelButton != null) {
mGestures.addTouchReceiver((View) mReviewCancelButton);
}
if (mReviewDoneButton != null) {
mGestures.addTouchReceiver((View) mReviewDoneButton);
}
if (mReviewPlayButton != null) {
mGestures.addTouchReceiver((View) mReviewPlayButton);
}
}
}
@Override
public void init(CameraActivity activity, View root, boolean reuseScreenNail) {
mActivity = activity;
mRootView = root;
mPreferences = new ComboPreferences(mActivity);
CameraSettings.upgradeGlobalPreferences(mPreferences.getGlobal());
mCameraId = getPreferredCameraId(mPreferences);
mPreferences.setLocalId(mActivity, mCameraId);
CameraSettings.upgradeLocalPreferences(mPreferences.getLocal());
mActivity.mNumberOfCameras = CameraHolder.instance().getNumberOfCameras();
mPrefVideoEffectDefault = mActivity.getString(R.string.pref_video_effect_default);
resetEffect();
/*
* To reduce startup time, we start the preview in another thread.
* We make sure the preview is started at the end of onCreate.
*/
CameraOpenThread cameraOpenThread = new CameraOpenThread();
cameraOpenThread.start();
mContentResolver = mActivity.getContentResolver();
mActivity.getLayoutInflater().inflate(R.layout.video_module, (ViewGroup) mRootView);
// Surface texture is from camera screen nail and startPreview needs it.
// This must be done before startPreview.
mIsVideoCaptureIntent = isVideoCaptureIntent();
if (reuseScreenNail) {
mActivity.reuseCameraScreenNail(!mIsVideoCaptureIntent);
} else {
mActivity.createCameraScreenNail(!mIsVideoCaptureIntent);
}
initializeSurfaceView();
// Make sure camera device is opened.
try {
cameraOpenThread.join();
if (mActivity.mOpenCameraFail) {
Util.showErrorAndFinish(mActivity, R.string.cannot_connect_camera);
return;
} else if (mActivity.mCameraDisabled) {
Util.showErrorAndFinish(mActivity, R.string.camera_disabled);
return;
}
} catch (InterruptedException ex) {
// ignore
}
Thread startPreviewThread = new Thread(new Runnable() {
@Override
public void run() {
readVideoPreferences();
startPreview();
}
});
startPreviewThread.start();
initializeControlByIntent();
initializeOverlay();
initializeMiscControls();
mQuickCapture = mActivity.getIntent().getBooleanExtra(EXTRA_QUICK_CAPTURE, false);
mLocationManager = new LocationManager(mActivity, null);
setOrientationIndicator(0, false);
setDisplayOrientation();
// Make sure preview is started.
try {
startPreviewThread.join();
if (mActivity.mOpenCameraFail) {
Util.showErrorAndFinish(mActivity, R.string.cannot_connect_camera);
return;
} else if (mActivity.mCameraDisabled) {
Util.showErrorAndFinish(mActivity, R.string.camera_disabled);
return;
}
} catch (InterruptedException ex) {
// ignore
}
showTimeLapseUI(mCaptureTimeLapse);
initializeVideoSnapshot();
resizeForPreviewAspectRatio();
initializeVideoControl();
mPendingSwitchCameraId = -1;
updateOnScreenIndicators();
}
@Override
public void onStop() {}
private void loadCameraPreferences() {
CameraSettings settings = new CameraSettings(mActivity, mParameters,
mCameraId, CameraHolder.instance().getCameraInfo());
// Remove the video quality preference setting when the quality is given in the intent.
mPreferenceGroup = filterPreferenceScreenByIntent(
settings.getPreferenceGroup(R.xml.video_preferences));
}
@Override
public boolean collapseCameraControls() {
boolean ret = false;
if (mPopup != null) {
dismissPopup(false);
ret = true;
}
return ret;
}
public boolean removeTopLevelPopup() {
if (mPopup != null) {
dismissPopup(true);
return true;
}
return false;
}
private void enableCameraControls(boolean enable) {
if (mGestures != null) {
mGestures.setZoomOnly(!enable);
}
if (mPieRenderer != null && mPieRenderer.showsItems()) {
mPieRenderer.hide();
}
}
private void initializeVideoControl() {
loadCameraPreferences();
mVideoControl.initialize(mPreferenceGroup);
if (effectsActive()) {
mVideoControl.overrideSettings(
CameraSettings.KEY_VIDEO_QUALITY,
Integer.toString(getLowVideoQuality()));
}
}
@TargetApi(ApiHelper.VERSION_CODES.HONEYCOMB)
private static int getLowVideoQuality() {
if (ApiHelper.HAS_FINE_RESOLUTION_QUALITY_LEVELS) {
return CamcorderProfile.QUALITY_480P;
} else {
return CamcorderProfile.QUALITY_LOW;
}
}
@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;
int newOrientation = Util.roundOrientation(orientation, mOrientation);
if (mOrientation != newOrientation) {
mOrientation = newOrientation;
// The input of effects recorder is affected by
// android.hardware.Camera.setDisplayOrientation. Its value only
// compensates the camera orientation (no Display.getRotation).
// So the orientation hint here should only consider sensor
// orientation.
if (effectsActive()) {
mEffectsRecorder.setOrientationHint(mOrientation);
}
}
// Show the toast after getting the first orientation changed.
if (mHandler.hasMessages(SHOW_TAP_TO_SNAPSHOT_TOAST)) {
mHandler.removeMessages(SHOW_TAP_TO_SNAPSHOT_TOAST);
showTapToSnapshotToast();
}
}
private void setOrientationIndicator(int orientation, boolean animation) {
Rotatable[] indicators = {
mBgLearningMessageRotater,
mReviewDoneButton, mReviewPlayButton};
for (Rotatable indicator : indicators) {
if (indicator != null) indicator.setOrientation(orientation, animation);
}
if (mGestures != null) {
mGestures.setOrientation(orientation);
}
// We change the orientation of the review cancel button only for tablet
// UI because there's a label along with the X icon. For phone UI, we
// don't change the orientation because there's only a symmetrical X
// icon.
if (mReviewCancelButton instanceof RotateLayout) {
mReviewCancelButton.setOrientation(orientation, animation);
}
// We change the orientation of the linearlayout only for phone UI because when in portrait
// the width is not enough.
if (mLabelsLinearLayout != null) {
if (((orientation / 90) & 1) == 0) {
mLabelsLinearLayout.setOrientation(LinearLayout.VERTICAL);
} else {
mLabelsLinearLayout.setOrientation(LinearLayout.HORIZONTAL);
}
}
mRecordingTimeRect.setOrientation(0, animation);
}
private void startPlayVideoActivity() {
Intent intent = new Intent(Intent.ACTION_VIEW);
intent.setDataAndType(mCurrentVideoUri, convertOutputFormatToMimeType(mProfile.fileFormat));
try {
mActivity.startActivity(intent);
} catch (ActivityNotFoundException ex) {
Log.e(TAG, "Couldn't view video " + mCurrentVideoUri, ex);
}
}
@OnClickAttr
public void onReviewPlayClicked(View v) {
startPlayVideoActivity();
}
@OnClickAttr
public void onReviewDoneClicked(View v) {
doReturnToCaller(true);
}
@OnClickAttr
public void onReviewCancelClicked(View v) {
stopVideoRecording();
doReturnToCaller(false);
}
private void onStopVideoRecording() {
mEffectsDisplayResult = true;
boolean recordFail = stopVideoRecording();
if (mIsVideoCaptureIntent) {
if (!effectsActive()) {
if (mQuickCapture) {
doReturnToCaller(!recordFail);
} else if (!recordFail) {
showAlert();
}
}
} else if (!recordFail){
// Start capture animation.
if (!mPaused && ApiHelper.HAS_SURFACE_TEXTURE_RECORDING) {
// The capture animation is disabled on ICS because we use SurfaceView
// for preview during recording. When the recording is done, we switch
// back to use SurfaceTexture for preview and we need to stop then start
// the preview. This will cause the preview flicker since the preview
// will not be continuous for a short period of time.
((CameraScreenNail) mActivity.mCameraScreenNail).animateCapture(mDisplayRotation);
}
}
}
public void onProtectiveCurtainClick(View v) {
// Consume clicks
}
@Override
public void onShutterButtonClick() {
if (collapseCameraControls() || mSwitchingCamera) return;
boolean stop = mMediaRecorderRecording;
if (stop) {
onStopVideoRecording();
} else {
startVideoRecording();
}
mShutterButton.setEnabled(false);
// Keep the shutter button disabled when in video capture intent
// mode and recording is stopped. It'll be re-enabled when
// re-take button is clicked.
if (!(mIsVideoCaptureIntent && stop)) {
mHandler.sendEmptyMessageDelayed(
ENABLE_SHUTTER_BUTTON, SHUTTER_BUTTON_TIMEOUT);
}
}
@Override
public void onShutterButtonFocus(boolean pressed) {
// Do nothing (everything happens in onShutterButtonClick).
}
private void readVideoPreferences() {
// The preference stores values from ListPreference and is thus string type for all values.
// We need to convert it to int manually.
String defaultQuality = CameraSettings.getDefaultVideoQuality(mCameraId,
mActivity.getResources().getString(R.string.pref_video_quality_default));
String videoQuality =
mPreferences.getString(CameraSettings.KEY_VIDEO_QUALITY,
defaultQuality);
int quality = Integer.valueOf(videoQuality);
// Set video quality.
Intent intent = mActivity.getIntent();
if (intent.hasExtra(MediaStore.EXTRA_VIDEO_QUALITY)) {
int extraVideoQuality =
intent.getIntExtra(MediaStore.EXTRA_VIDEO_QUALITY, 0);
if (extraVideoQuality > 0) {
quality = CamcorderProfile.QUALITY_HIGH;
} else { // 0 is mms.
quality = CamcorderProfile.QUALITY_LOW;
}
}
// Set video duration limit. The limit is read from the preference,
// unless it is specified in the intent.
if (intent.hasExtra(MediaStore.EXTRA_DURATION_LIMIT)) {
int seconds =
intent.getIntExtra(MediaStore.EXTRA_DURATION_LIMIT, 0);
mMaxVideoDurationInMs = 1000 * seconds;
} else {
mMaxVideoDurationInMs = CameraSettings.getMaxVideoDuration(mActivity);
}
// Set effect
mEffectType = CameraSettings.readEffectType(mPreferences);
if (mEffectType != EffectsRecorder.EFFECT_NONE) {
mEffectParameter = CameraSettings.readEffectParameter(mPreferences);
// Set quality to be no higher than 480p.
CamcorderProfile profile = CamcorderProfile.get(mCameraId, quality);
if (profile.videoFrameHeight > 480) {
quality = getLowVideoQuality();
}
} else {
mEffectParameter = null;
}
// Read time lapse recording interval.
if (ApiHelper.HAS_TIME_LAPSE_RECORDING) {
String frameIntervalStr = mPreferences.getString(
CameraSettings.KEY_VIDEO_TIME_LAPSE_FRAME_INTERVAL,
mActivity.getString(R.string.pref_video_time_lapse_frame_interval_default));
mTimeBetweenTimeLapseFrameCaptureMs = Integer.parseInt(frameIntervalStr);
mCaptureTimeLapse = (mTimeBetweenTimeLapseFrameCaptureMs != 0);
}
// TODO: This should be checked instead directly +1000.
if (mCaptureTimeLapse) quality += 1000;
mProfile = CamcorderProfile.get(mCameraId, quality);
getDesiredPreviewSize();
}
private void writeDefaultEffectToPrefs() {
ComboPreferences.Editor editor = mPreferences.edit();
editor.putString(CameraSettings.KEY_VIDEO_EFFECT,
mActivity.getString(R.string.pref_video_effect_default));
editor.apply();
}
@TargetApi(ApiHelper.VERSION_CODES.HONEYCOMB)
private void getDesiredPreviewSize() {
mParameters = mActivity.mCameraDevice.getParameters();
if (ApiHelper.HAS_GET_SUPPORTED_VIDEO_SIZE) {
if (mParameters.getSupportedVideoSizes() == null || effectsActive()) {
mDesiredPreviewWidth = mProfile.videoFrameWidth;
mDesiredPreviewHeight = mProfile.videoFrameHeight;
} else { // Driver supports separates outputs for preview and video.
List<Size> sizes = mParameters.getSupportedPreviewSizes();
Size preferred = mParameters.getPreferredPreviewSizeForVideo();
int product = preferred.width * preferred.height;
Iterator<Size> it = sizes.iterator();
// Remove the preview sizes that are not preferred.
while (it.hasNext()) {
Size size = it.next();
if (size.width * size.height > product) {
it.remove();
}
}
Size optimalSize = Util.getOptimalPreviewSize(mActivity, sizes,
(double) mProfile.videoFrameWidth / mProfile.videoFrameHeight);
mDesiredPreviewWidth = optimalSize.width;
mDesiredPreviewHeight = optimalSize.height;
}
} else {
mDesiredPreviewWidth = mProfile.videoFrameWidth;
mDesiredPreviewHeight = mProfile.videoFrameHeight;
}
Log.v(TAG, "mDesiredPreviewWidth=" + mDesiredPreviewWidth +
". mDesiredPreviewHeight=" + mDesiredPreviewHeight);
}
private void resizeForPreviewAspectRatio() {
mPreviewFrameLayout.setAspectRatio(
(double) mProfile.videoFrameWidth / mProfile.videoFrameHeight);
}
@Override
public void installIntentFilter() {
// install an intent filter to receive SD card related events.
IntentFilter intentFilter =
new IntentFilter(Intent.ACTION_MEDIA_EJECT);
intentFilter.addAction(Intent.ACTION_MEDIA_SCANNER_STARTED);
intentFilter.addDataScheme("file");
mReceiver = new MyBroadcastReceiver();
mActivity.registerReceiver(mReceiver, intentFilter);
}
@Override
public void onResumeBeforeSuper() {
mPaused = false;
}
@Override
public void onResumeAfterSuper() {
if (mActivity.mOpenCameraFail || mActivity.mCameraDisabled)
return;
mZoomValue = 0;
showVideoSnapshotUI(false);
if (!mPreviewing) {
if (resetEffect()) {
mBgLearningMessageFrame.setVisibility(View.GONE);
}
openCamera();
if (mActivity.mOpenCameraFail) {
Util.showErrorAndFinish(mActivity,
R.string.cannot_connect_camera);
return;
} else if (mActivity.mCameraDisabled) {
Util.showErrorAndFinish(mActivity, R.string.camera_disabled);
return;
}
readVideoPreferences();
resizeForPreviewAspectRatio();
startPreview();
}
// Initializing it here after the preview is started.
initializeZoom();
keepScreenOnAwhile();
// Initialize location service.
boolean recordLocation = RecordLocationPreference.get(mPreferences,
mContentResolver);
mLocationManager.recordLocation(recordLocation);
if (mPreviewing) {
mOnResumeTime = SystemClock.uptimeMillis();
mHandler.sendEmptyMessageDelayed(CHECK_DISPLAY_ROTATION, 100);
}
// Dismiss open menu if exists.
PopupManager.getInstance(mActivity).notifyShowPopup(null);
mVideoNamer = new VideoNamer();
}
private void setDisplayOrientation() {
mDisplayRotation = Util.getDisplayRotation(mActivity);
if (ApiHelper.HAS_SURFACE_TEXTURE) {
// The display rotation is handled by gallery.
mCameraDisplayOrientation = Util.getDisplayOrientation(0, mCameraId);
} else {
// We need to consider display rotation ourselves.
mCameraDisplayOrientation = Util.getDisplayOrientation(mDisplayRotation, mCameraId);
}
// GLRoot also uses the DisplayRotation, and needs to be told to layout to update
mActivity.getGLRoot().requestLayoutContentPane();
}
private void startPreview() {
Log.v(TAG, "startPreview");
mActivity.mCameraDevice.setErrorCallback(mErrorCallback);
if (mPreviewing == true) {
stopPreview();
if (effectsActive() && mEffectsRecorder != null) {
mEffectsRecorder.release();
mEffectsRecorder = null;
}
}
setDisplayOrientation();
mActivity.mCameraDevice.setDisplayOrientation(mCameraDisplayOrientation);
setCameraParameters();
try {
if (!effectsActive()) {
if (ApiHelper.HAS_SURFACE_TEXTURE) {
mActivity.mCameraDevice.setPreviewTextureAsync(
((CameraScreenNail) mActivity.mCameraScreenNail).getSurfaceTexture());
} else {
mActivity.mCameraDevice.setPreviewDisplayAsync(mPreviewSurfaceView.getHolder());
}
mActivity.mCameraDevice.startPreviewAsync();
} else {
initializeEffectsPreview();
mEffectsRecorder.startPreview();
}
} catch (Throwable ex) {
closeCamera();
throw new RuntimeException("startPreview failed", ex);
}
mPreviewing = true;
}
private void stopPreview() {
mActivity.mCameraDevice.stopPreview();
mPreviewing = false;
}
// Closing the effects out. Will shut down the effects graph.
private void closeEffects() {
Log.v(TAG, "Closing effects");
mEffectType = EffectsRecorder.EFFECT_NONE;
if (mEffectsRecorder == null) {
Log.d(TAG, "Effects are already closed. Nothing to do");
return;
}
// This call can handle the case where the camera is already released
// after the recording has been stopped.
mEffectsRecorder.release();
mEffectsRecorder = null;
}
// By default, we want to close the effects as well with the camera.
private void closeCamera() {
closeCamera(true);
}
// In certain cases, when the effects are active, we may want to shutdown
// only the camera related parts, and handle closing the effects in the
// effectsUpdate callback.
// For example, in onPause, we want to make the camera available to
// outside world immediately, however, want to wait till the effects
// callback to shut down the effects. In such a case, we just disconnect
// the effects from the camera by calling disconnectCamera. That way
// the effects can handle that when shutting down.
//
// @param closeEffectsAlso - indicates whether we want to close the
// effects also along with the camera.
private void closeCamera(boolean closeEffectsAlso) {
Log.v(TAG, "closeCamera");
if (mActivity.mCameraDevice == null) {
Log.d(TAG, "already stopped.");
return;
}
if (mEffectsRecorder != null) {
// Disconnect the camera from effects so that camera is ready to
// be released to the outside world.
mEffectsRecorder.disconnectCamera();
}
if (closeEffectsAlso) closeEffects();
mActivity.mCameraDevice.setZoomChangeListener(null);
mActivity.mCameraDevice.setErrorCallback(null);
CameraHolder.instance().release();
mActivity.mCameraDevice = null;
mPreviewing = false;
mSnapshotInProgress = false;
}
private void releasePreviewResources() {
if (ApiHelper.HAS_SURFACE_TEXTURE) {
CameraScreenNail screenNail = (CameraScreenNail) mActivity.mCameraScreenNail;
if (screenNail.getSurfaceTexture() != null) {
screenNail.releaseSurfaceTexture();
}
if (!ApiHelper.HAS_SURFACE_TEXTURE_RECORDING) {
mHandler.removeMessages(HIDE_SURFACE_VIEW);
mPreviewSurfaceView.setVisibility(View.GONE);
}
}
}
@Override
public void onPauseBeforeSuper() {
mPaused = true;
if (mMediaRecorderRecording) {
// Camera will be released in onStopVideoRecording.
onStopVideoRecording();
} else {
closeCamera();
if (!effectsActive()) releaseMediaRecorder();
}
if (effectsActive()) {
// If the effects are active, make sure we tell the graph that the
// surfacetexture is not valid anymore. Disconnect the graph from
// the display. This should be done before releasing the surface
// texture.
mEffectsRecorder.disconnectDisplay();
} else {
// Close the file descriptor and clear the video namer only if the
// effects are not active. If effects are active, we need to wait
// till we get the callback from the Effects that the graph is done
// recording. That also needs a change in the stopVideoRecording()
// call to not call closeCamera if the effects are active, because
// that will close down the effects are well, thus making this if
// condition invalid.
closeVideoFileDescriptor();
clearVideoNamer();
}
releasePreviewResources();
if (mReceiver != null) {
mActivity.unregisterReceiver(mReceiver);
mReceiver = null;
}
resetScreenOn();
if (mLocationManager != null) mLocationManager.recordLocation(false);
mHandler.removeMessages(CHECK_DISPLAY_ROTATION);
mHandler.removeMessages(SWITCH_CAMERA);
mHandler.removeMessages(SWITCH_CAMERA_START_ANIMATION);
mPendingSwitchCameraId = -1;
mSwitchingCamera = false;
// Call onPause after stopping video recording. So the camera can be
// released as soon as possible.
}
@Override
public void onPauseAfterSuper() {
}
@Override
public void onUserInteraction() {
if (!mMediaRecorderRecording && !mActivity.isFinishing()) {
keepScreenOnAwhile();
}
}
@Override
public boolean onBackPressed() {
if (mPaused) return true;
if (mMediaRecorderRecording) {
onStopVideoRecording();
return true;
} else if (mPieRenderer != null && mPieRenderer.showsItems()) {
mPieRenderer.hide();
return true;
} else {
return removeTopLevelPopup();
}
}
@Override
public boolean onKeyDown(int keyCode, KeyEvent event) {
// Do not handle any key if the activity is paused.
if (mPaused) {
return true;
}
switch (keyCode) {
case KeyEvent.KEYCODE_CAMERA:
if (event.getRepeatCount() == 0) {
mShutterButton.performClick();
return true;
}
break;
case KeyEvent.KEYCODE_DPAD_CENTER:
if (event.getRepeatCount() == 0) {
mShutterButton.performClick();
return true;
}
break;
case KeyEvent.KEYCODE_MENU:
if (mMediaRecorderRecording) return true;
break;
}
return false;
}
@Override
public boolean onKeyUp(int keyCode, KeyEvent event) {
switch (keyCode) {
case KeyEvent.KEYCODE_CAMERA:
mShutterButton.setPressed(false);
return true;
}
return false;
}
private boolean isVideoCaptureIntent() {
String action = mActivity.getIntent().getAction();
return (MediaStore.ACTION_VIDEO_CAPTURE.equals(action));
}
private void doReturnToCaller(boolean valid) {
Intent resultIntent = new Intent();
int resultCode;
if (valid) {
resultCode = Activity.RESULT_OK;
resultIntent.setData(mCurrentVideoUri);
} else {
resultCode = Activity.RESULT_CANCELED;
}
mActivity.setResultEx(resultCode, resultIntent);
mActivity.finish();
}
private void cleanupEmptyFile() {
if (mVideoFilename != null) {
File f = new File(mVideoFilename);
if (f.length() == 0 && f.delete()) {
Log.v(TAG, "Empty video file deleted: " + mVideoFilename);
mVideoFilename = null;
}
}
}
private void setupMediaRecorderPreviewDisplay() {
// Nothing to do here if using SurfaceTexture.
if (!ApiHelper.HAS_SURFACE_TEXTURE) {
mMediaRecorder.setPreviewDisplay(mPreviewSurfaceView.getHolder().getSurface());
} else if (!ApiHelper.HAS_SURFACE_TEXTURE_RECORDING) {
// We stop the preview here before unlocking the device because we
// need to change the SurfaceTexture to SurfaceView for preview.
stopPreview();
mActivity.mCameraDevice.setPreviewDisplayAsync(mPreviewSurfaceView.getHolder());
// The orientation for SurfaceTexture is different from that for
// SurfaceView. For SurfaceTexture we don't need to consider the
// display rotation. Just consider the sensor's orientation and we
// will set the orientation correctly when showing the texture.
// Gallery will handle the orientation for the preview. For
// SurfaceView we will have to take everything into account so the
// display rotation is considered.
mActivity.mCameraDevice.setDisplayOrientation(
Util.getDisplayOrientation(mDisplayRotation, mCameraId));
mActivity.mCameraDevice.startPreviewAsync();
mPreviewing = true;
mMediaRecorder.setPreviewDisplay(mPreviewSurfaceView.getHolder().getSurface());
}
}
// Prepares media recorder.
private void initializeRecorder() {
Log.v(TAG, "initializeRecorder");
// If the mCameraDevice is null, then this activity is going to finish
if (mActivity.mCameraDevice == null) return;
if (!ApiHelper.HAS_SURFACE_TEXTURE_RECORDING && ApiHelper.HAS_SURFACE_TEXTURE) {
// Set the SurfaceView to visible so the surface gets created.
// surfaceCreated() is called immediately when the visibility is
// changed to visible. Thus, mSurfaceViewReady should become true
// right after calling setVisibility().
mPreviewSurfaceView.setVisibility(View.VISIBLE);
if (!mSurfaceViewReady) return;
}
Intent intent = mActivity.getIntent();
Bundle myExtras = intent.getExtras();
long requestedSizeLimit = 0;
closeVideoFileDescriptor();
if (mIsVideoCaptureIntent && myExtras != null) {
Uri saveUri = (Uri) myExtras.getParcelable(MediaStore.EXTRA_OUTPUT);
if (saveUri != null) {
try {
mVideoFileDescriptor =
mContentResolver.openFileDescriptor(saveUri, "rw");
mCurrentVideoUri = saveUri;
} catch (java.io.FileNotFoundException ex) {
// invalid uri
Log.e(TAG, ex.toString());
}
}
requestedSizeLimit = myExtras.getLong(MediaStore.EXTRA_SIZE_LIMIT);
}
mMediaRecorder = new MediaRecorder();
setupMediaRecorderPreviewDisplay();
// Unlock the camera object before passing it to media recorder.
mActivity.mCameraDevice.unlock();
mMediaRecorder.setCamera(mActivity.mCameraDevice.getCamera());
if (!mCaptureTimeLapse) {
mMediaRecorder.setAudioSource(MediaRecorder.AudioSource.CAMCORDER);
}
mMediaRecorder.setVideoSource(MediaRecorder.VideoSource.CAMERA);
mMediaRecorder.setProfile(mProfile);
mMediaRecorder.setMaxDuration(mMaxVideoDurationInMs);
if (mCaptureTimeLapse) {
double fps = 1000 / (double) mTimeBetweenTimeLapseFrameCaptureMs;
setCaptureRate(mMediaRecorder, fps);
}
setRecordLocation();
// Set output file.
// Try Uri in the intent first. If it doesn't exist, use our own
// instead.
if (mVideoFileDescriptor != null) {
mMediaRecorder.setOutputFile(mVideoFileDescriptor.getFileDescriptor());
} else {
generateVideoFilename(mProfile.fileFormat);
mMediaRecorder.setOutputFile(mVideoFilename);
}
// Set maximum file size.
long maxFileSize = mActivity.getStorageSpace() - Storage.LOW_STORAGE_THRESHOLD;
if (requestedSizeLimit > 0 && requestedSizeLimit < maxFileSize) {
maxFileSize = requestedSizeLimit;
}
try {
mMediaRecorder.setMaxFileSize(maxFileSize);
} catch (RuntimeException exception) {
// We are going to ignore failure of setMaxFileSize here, as
// a) The composer selected may simply not support it, or
// b) The underlying media framework may not handle 64-bit range
// on the size restriction.
}
// See android.hardware.Camera.Parameters.setRotation for
// documentation.
// Note that mOrientation here is the device orientation, which is the opposite of
// what activity.getWindowManager().getDefaultDisplay().getRotation() would return,
// which is the orientation the graphics need to rotate in order to render correctly.
int rotation = 0;
if (mOrientation != OrientationEventListener.ORIENTATION_UNKNOWN) {
CameraInfo info = CameraHolder.instance().getCameraInfo()[mCameraId];
if (info.facing == CameraInfo.CAMERA_FACING_FRONT) {
rotation = (info.orientation - mOrientation + 360) % 360;
} else { // back-facing camera
rotation = (info.orientation + mOrientation) % 360;
}
}
mMediaRecorder.setOrientationHint(rotation);
try {
mMediaRecorder.prepare();
} catch (IOException e) {
Log.e(TAG, "prepare failed for " + mVideoFilename, e);
releaseMediaRecorder();
throw new RuntimeException(e);
}
mMediaRecorder.setOnErrorListener(this);
mMediaRecorder.setOnInfoListener(this);
}
@TargetApi(ApiHelper.VERSION_CODES.HONEYCOMB)
private static void setCaptureRate(MediaRecorder recorder, double fps) {
recorder.setCaptureRate(fps);
}
@TargetApi(ApiHelper.VERSION_CODES.ICE_CREAM_SANDWICH)
private void setRecordLocation() {
if (Build.VERSION.SDK_INT >= Build.VERSION_CODES.ICE_CREAM_SANDWICH) {
Location loc = mLocationManager.getCurrentLocation();
if (loc != null) {
mMediaRecorder.setLocation((float) loc.getLatitude(),
(float) loc.getLongitude());
}
}
}
private void initializeEffectsPreview() {
Log.v(TAG, "initializeEffectsPreview");
// If the mCameraDevice is null, then this activity is going to finish
if (mActivity.mCameraDevice == null) return;
boolean inLandscape = (mActivity.getResources().getConfiguration().orientation
== Configuration.ORIENTATION_LANDSCAPE);
CameraInfo info = CameraHolder.instance().getCameraInfo()[mCameraId];
mEffectsDisplayResult = false;
mEffectsRecorder = new EffectsRecorder(mActivity);
// TODO: Confirm none of the following need to go to initializeEffectsRecording()
// and none of these change even when the preview is not refreshed.
mEffectsRecorder.setCameraDisplayOrientation(mCameraDisplayOrientation);
mEffectsRecorder.setCamera(mActivity.mCameraDevice);
mEffectsRecorder.setCameraFacing(info.facing);
mEffectsRecorder.setProfile(mProfile);
mEffectsRecorder.setEffectsListener(this);
mEffectsRecorder.setOnInfoListener(this);
mEffectsRecorder.setOnErrorListener(this);
// The input of effects recorder is affected by
// android.hardware.Camera.setDisplayOrientation. Its value only
// compensates the camera orientation (no Display.getRotation). So the
// orientation hint here should only consider sensor orientation.
int orientation = 0;
if (mOrientation != OrientationEventListener.ORIENTATION_UNKNOWN) {
orientation = mOrientation;
}
mEffectsRecorder.setOrientationHint(orientation);
CameraScreenNail screenNail = (CameraScreenNail) mActivity.mCameraScreenNail;
mEffectsRecorder.setPreviewSurfaceTexture(screenNail.getSurfaceTexture(),
screenNail.getWidth(), screenNail.getHeight());
if (mEffectType == EffectsRecorder.EFFECT_BACKDROPPER &&
((String) mEffectParameter).equals(EFFECT_BG_FROM_GALLERY)) {
mEffectsRecorder.setEffect(mEffectType, mEffectUriFromGallery);
} else {
mEffectsRecorder.setEffect(mEffectType, mEffectParameter);
}
}
private void initializeEffectsRecording() {
Log.v(TAG, "initializeEffectsRecording");
Intent intent = mActivity.getIntent();
Bundle myExtras = intent.getExtras();
long requestedSizeLimit = 0;
closeVideoFileDescriptor();
if (mIsVideoCaptureIntent && myExtras != null) {
Uri saveUri = (Uri) myExtras.getParcelable(MediaStore.EXTRA_OUTPUT);
if (saveUri != null) {
try {
mVideoFileDescriptor =
mContentResolver.openFileDescriptor(saveUri, "rw");
mCurrentVideoUri = saveUri;
} catch (java.io.FileNotFoundException ex) {
// invalid uri
Log.e(TAG, ex.toString());
}
}
requestedSizeLimit = myExtras.getLong(MediaStore.EXTRA_SIZE_LIMIT);
}
mEffectsRecorder.setProfile(mProfile);
// important to set the capture rate to zero if not timelapsed, since the
// effectsrecorder object does not get created again for each recording
// session
if (mCaptureTimeLapse) {
mEffectsRecorder.setCaptureRate((1000 / (double) mTimeBetweenTimeLapseFrameCaptureMs));
} else {
mEffectsRecorder.setCaptureRate(0);
}
// Set output file
if (mVideoFileDescriptor != null) {
mEffectsRecorder.setOutputFile(mVideoFileDescriptor.getFileDescriptor());
} else {
generateVideoFilename(mProfile.fileFormat);
mEffectsRecorder.setOutputFile(mVideoFilename);
}
// Set maximum file size.
long maxFileSize = mActivity.getStorageSpace() - Storage.LOW_STORAGE_THRESHOLD;
if (requestedSizeLimit > 0 && requestedSizeLimit < maxFileSize) {
maxFileSize = requestedSizeLimit;
}
mEffectsRecorder.setMaxFileSize(maxFileSize);
mEffectsRecorder.setMaxDuration(mMaxVideoDurationInMs);
}
private void releaseMediaRecorder() {
Log.v(TAG, "Releasing media recorder.");
if (mMediaRecorder != null) {
cleanupEmptyFile();
mMediaRecorder.reset();
mMediaRecorder.release();
mMediaRecorder = null;
}
mVideoFilename = null;
}
private void releaseEffectsRecorder() {
Log.v(TAG, "Releasing effects recorder.");
if (mEffectsRecorder != null) {
cleanupEmptyFile();
mEffectsRecorder.release();
mEffectsRecorder = null;
}
mEffectType = EffectsRecorder.EFFECT_NONE;
mVideoFilename = null;
}
private void generateVideoFilename(int outputFileFormat) {
long dateTaken = System.currentTimeMillis();
String title = createName(dateTaken);
// Used when emailing.
String filename = title + convertOutputFormatToFileExt(outputFileFormat);
String mime = convertOutputFormatToMimeType(outputFileFormat);
String path = Storage.DIRECTORY + '/' + filename;
String tmpPath = path + ".tmp";
mCurrentVideoValues = new ContentValues(7);
mCurrentVideoValues.put(Video.Media.TITLE, title);
mCurrentVideoValues.put(Video.Media.DISPLAY_NAME, filename);
mCurrentVideoValues.put(Video.Media.DATE_TAKEN, dateTaken);
mCurrentVideoValues.put(Video.Media.MIME_TYPE, mime);
mCurrentVideoValues.put(Video.Media.DATA, path);
mCurrentVideoValues.put(Video.Media.RESOLUTION,
Integer.toString(mProfile.videoFrameWidth) + "x" +
Integer.toString(mProfile.videoFrameHeight));
Location loc = mLocationManager.getCurrentLocation();
if (loc != null) {
mCurrentVideoValues.put(Video.Media.LATITUDE, loc.getLatitude());
mCurrentVideoValues.put(Video.Media.LONGITUDE, loc.getLongitude());
}
mVideoNamer.prepareUri(mContentResolver, mCurrentVideoValues);
mVideoFilename = tmpPath;
Log.v(TAG, "New video filename: " + mVideoFilename);
}
private boolean addVideoToMediaStore() {
boolean fail = false;
if (mVideoFileDescriptor == null) {
mCurrentVideoValues.put(Video.Media.SIZE,
new File(mCurrentVideoFilename).length());
long duration = SystemClock.uptimeMillis() - mRecordingStartTime;
if (duration > 0) {
if (mCaptureTimeLapse) {
duration = getTimeLapseVideoLength(duration);
}
mCurrentVideoValues.put(Video.Media.DURATION, duration);
} else {
Log.w(TAG, "Video duration <= 0 : " + duration);
}
try {
mCurrentVideoUri = mVideoNamer.getUri();
mActivity.addSecureAlbumItemIfNeeded(true, mCurrentVideoUri);
// Rename the video file to the final name. This avoids other
// apps reading incomplete data. We need to do it after the
// above mVideoNamer.getUri() call, so we are certain that the
// previous insert to MediaProvider is completed.
String finalName = mCurrentVideoValues.getAsString(
Video.Media.DATA);
if (new File(mCurrentVideoFilename).renameTo(new File(finalName))) {
mCurrentVideoFilename = finalName;
}
mContentResolver.update(mCurrentVideoUri, mCurrentVideoValues
, null, null);
mActivity.sendBroadcast(new Intent(Util.ACTION_NEW_VIDEO,
mCurrentVideoUri));
} catch (Exception e) {
// We failed to insert into the database. This can happen if
// the SD card is unmounted.
Log.e(TAG, "failed to add video to media store", e);
mCurrentVideoUri = null;
mCurrentVideoFilename = null;
fail = true;
} finally {
Log.v(TAG, "Current video URI: " + mCurrentVideoUri);
}
}
mCurrentVideoValues = null;
return fail;
}
private void deleteCurrentVideo() {
// Remove the video and the uri if the uri is not passed in by intent.
if (mCurrentVideoFilename != null) {
deleteVideoFile(mCurrentVideoFilename);
mCurrentVideoFilename = null;
if (mCurrentVideoUri != null) {
mContentResolver.delete(mCurrentVideoUri, null, null);
mCurrentVideoUri = null;
}
}
mActivity.updateStorageSpaceAndHint();
}
private void deleteVideoFile(String fileName) {
Log.v(TAG, "Deleting video " + fileName);
File f = new File(fileName);
if (!f.delete()) {
Log.v(TAG, "Could not delete " + fileName);
}
}
private PreferenceGroup filterPreferenceScreenByIntent(
PreferenceGroup screen) {
Intent intent = mActivity.getIntent();
if (intent.hasExtra(MediaStore.EXTRA_VIDEO_QUALITY)) {
CameraSettings.removePreferenceFromScreen(screen,
CameraSettings.KEY_VIDEO_QUALITY);
}
if (intent.hasExtra(MediaStore.EXTRA_DURATION_LIMIT)) {
CameraSettings.removePreferenceFromScreen(screen,
CameraSettings.KEY_VIDEO_QUALITY);
}
return screen;
}
// from MediaRecorder.OnErrorListener
@Override
public void onError(MediaRecorder mr, int what, int extra) {
Log.e(TAG, "MediaRecorder error. what=" + what + ". extra=" + extra);
if (what == MediaRecorder.MEDIA_RECORDER_ERROR_UNKNOWN) {
// We may have run out of space on the sdcard.
stopVideoRecording();
mActivity.updateStorageSpaceAndHint();
}
}
// from MediaRecorder.OnInfoListener
@Override
public void onInfo(MediaRecorder mr, int what, int extra) {
if (what == MediaRecorder.MEDIA_RECORDER_INFO_MAX_DURATION_REACHED) {
if (mMediaRecorderRecording) onStopVideoRecording();
} else if (what == MediaRecorder.MEDIA_RECORDER_INFO_MAX_FILESIZE_REACHED) {
if (mMediaRecorderRecording) onStopVideoRecording();
// Show the toast.
Toast.makeText(mActivity, R.string.video_reach_size_limit,
Toast.LENGTH_LONG).show();
}
}
/*
* Make sure we're not recording music playing in the background, ask the
* MediaPlaybackService to pause playback.
*/
private void pauseAudioPlayback() {
// Shamelessly copied from MediaPlaybackService.java, which
// should be public, but isn't.
Intent i = new Intent("com.android.music.musicservicecommand");
i.putExtra("command", "pause");
mActivity.sendBroadcast(i);
}
// For testing.
public boolean isRecording() {
return mMediaRecorderRecording;
}
private void startVideoRecording() {
Log.v(TAG, "startVideoRecording");
mActivity.setSwipingEnabled(false);
mActivity.updateStorageSpaceAndHint();
if (mActivity.getStorageSpace() <= Storage.LOW_STORAGE_THRESHOLD) {
Log.v(TAG, "Storage issue, ignore the start request");
return;
}
mCurrentVideoUri = null;
if (effectsActive()) {
initializeEffectsRecording();
if (mEffectsRecorder == null) {
Log.e(TAG, "Fail to initialize effect recorder");
return;
}
} else {
initializeRecorder();
if (mMediaRecorder == null) {
Log.e(TAG, "Fail to initialize media recorder");
return;
}
}
pauseAudioPlayback();
if (effectsActive()) {
try {
mEffectsRecorder.startRecording();
} catch (RuntimeException e) {
Log.e(TAG, "Could not start effects recorder. ", e);
releaseEffectsRecorder();
return;
}
} else {
try {
mMediaRecorder.start(); // Recording is now started
} catch (RuntimeException e) {
Log.e(TAG, "Could not start media recorder. ", e);
releaseMediaRecorder();
// If start fails, frameworks will not lock the camera for us.
mActivity.mCameraDevice.lock();
return;
}
}
// The parameters may have been changed by MediaRecorder upon starting
// recording. We need to alter the parameters if we support camcorder
// zoom. To reduce latency when setting the parameters during zoom, we
// update mParameters here once.
if (ApiHelper.HAS_ZOOM_WHEN_RECORDING) {
mParameters = mActivity.mCameraDevice.getParameters();
}
enableCameraControls(false);
mMediaRecorderRecording = true;
mActivity.getOrientationManager().lockOrientation();
mRecordingStartTime = SystemClock.uptimeMillis();
showRecordingUI(true);
updateRecordingTime();
keepScreenOn();
}
private void showRecordingUI(boolean recording) {
mMenu.setVisibility(recording ? View.GONE : View.VISIBLE);
mOnScreenIndicators.setVisibility(recording ? View.GONE : View.VISIBLE);
if (recording) {
mShutterButton.setImageResource(R.drawable.btn_shutter_video_recording);
mActivity.hideSwitcher();
mRecordingTimeView.setText("");
mRecordingTimeView.setVisibility(View.VISIBLE);
if (mReviewControl != null) mReviewControl.setVisibility(View.GONE);
// The camera is not allowed to be accessed in older api levels during
// recording. It is therefore necessary to hide the zoom UI on older
// platforms.
// See the documentation of android.media.MediaRecorder.start() for
// further explanation.
if (!ApiHelper.HAS_ZOOM_WHEN_RECORDING
&& mParameters.isZoomSupported()) {
// TODO: disable zoom UI here.
}
} else {
mShutterButton.setImageResource(R.drawable.btn_new_shutter_video);
mActivity.showSwitcher();
mRecordingTimeView.setVisibility(View.GONE);
if (mReviewControl != null) mReviewControl.setVisibility(View.VISIBLE);
if (!ApiHelper.HAS_ZOOM_WHEN_RECORDING
&& mParameters.isZoomSupported()) {
// TODO: enable zoom UI here.
}
}
}
private void showAlert() {
Bitmap bitmap = null;
if (mVideoFileDescriptor != null) {
bitmap = Thumbnail.createVideoThumbnailBitmap(mVideoFileDescriptor.getFileDescriptor(),
mPreviewFrameLayout.getWidth());
} else if (mCurrentVideoFilename != null) {
bitmap = Thumbnail.createVideoThumbnailBitmap(mCurrentVideoFilename,
mPreviewFrameLayout.getWidth());
}
if (bitmap != null) {
// MetadataRetriever already rotates the thumbnail. We should rotate
// it to match the UI orientation (and mirror if it is front-facing camera).
CameraInfo[] info = CameraHolder.instance().getCameraInfo();
boolean mirror = (info[mCameraId].facing == CameraInfo.CAMERA_FACING_FRONT);
bitmap = Util.rotateAndMirror(bitmap, 0, mirror);
mReviewImage.setImageBitmap(bitmap);
mReviewImage.setVisibility(View.VISIBLE);
}
Util.fadeOut(mShutterButton);
Util.fadeIn((View) mReviewDoneButton);
Util.fadeIn(mReviewPlayButton);
mMenu.setVisibility(View.GONE);
mOnScreenIndicators.setVisibility(View.GONE);
enableCameraControls(false);
showTimeLapseUI(false);
}
private void hideAlert() {
mReviewImage.setVisibility(View.GONE);
mShutterButton.setEnabled(true);
mMenu.setVisibility(View.VISIBLE);
mOnScreenIndicators.setVisibility(View.VISIBLE);
enableCameraControls(true);
Util.fadeOut((View) mReviewDoneButton);
Util.fadeOut(mReviewPlayButton);
Util.fadeIn(mShutterButton);
if (mCaptureTimeLapse) {
showTimeLapseUI(true);
}
}
private boolean stopVideoRecording() {
Log.v(TAG, "stopVideoRecording");
mActivity.setSwipingEnabled(true);
mActivity.showSwitcher();
boolean fail = false;
if (mMediaRecorderRecording) {
boolean shouldAddToMediaStoreNow = false;
try {
if (effectsActive()) {
// This is asynchronous, so we can't add to media store now because thumbnail
// may not be ready. In such case addVideoToMediaStore is called later
// through a callback from the MediaEncoderFilter to EffectsRecorder,
// and then to the VideoModule.
mEffectsRecorder.stopRecording();
} else {
mMediaRecorder.setOnErrorListener(null);
mMediaRecorder.setOnInfoListener(null);
mMediaRecorder.stop();
shouldAddToMediaStoreNow = true;
}
mCurrentVideoFilename = mVideoFilename;
Log.v(TAG, "stopVideoRecording: Setting current video filename: "
+ mCurrentVideoFilename);
} catch (RuntimeException e) {
Log.e(TAG, "stop fail", e);
if (mVideoFilename != null) deleteVideoFile(mVideoFilename);
fail = true;
}
mMediaRecorderRecording = false;
mActivity.getOrientationManager().unlockOrientation();
// If the activity is paused, this means activity is interrupted
// during recording. Release the camera as soon as possible because
// face unlock or other applications may need to use the camera.
// However, if the effects are active, then we can only release the
// camera and cannot release the effects recorder since that will
// stop the graph. It is possible to separate out the Camera release
// part and the effects release part. However, the effects recorder
// does hold on to the camera, hence, it needs to be "disconnected"
// from the camera in the closeCamera call.
if (mPaused) {
// Closing only the camera part if effects active. Effects will
// be closed in the callback from effects.
boolean closeEffects = !effectsActive();
closeCamera(closeEffects);
}
showRecordingUI(false);
if (!mIsVideoCaptureIntent) {
enableCameraControls(true);
}
// The orientation was fixed during video recording. Now make it
// reflect the device orientation as video recording is stopped.
setOrientationIndicator(0, true);
keepScreenOnAwhile();
if (shouldAddToMediaStoreNow) {
if (addVideoToMediaStore()) fail = true;
}
}
// always release media recorder if no effects running
if (!effectsActive()) {
releaseMediaRecorder();
if (!mPaused) {
mActivity.mCameraDevice.lock();
if (ApiHelper.HAS_SURFACE_TEXTURE &&
!ApiHelper.HAS_SURFACE_TEXTURE_RECORDING) {
stopPreview();
// Switch back to use SurfaceTexture for preview.
((CameraScreenNail) mActivity.mCameraScreenNail).setOneTimeOnFrameDrawnListener(
mFrameDrawnListener);
startPreview();
}
}
}
// Update the parameters here because the parameters might have been altered
// by MediaRecorder.
if (!mPaused) mParameters = mActivity.mCameraDevice.getParameters();
return fail;
}
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);
}
private void keepScreenOn() {
mHandler.removeMessages(CLEAR_SCREEN_DELAY);
mActivity.getWindow().addFlags(WindowManager.LayoutParams.FLAG_KEEP_SCREEN_ON);
}
private static String millisecondToTimeString(long milliSeconds, boolean displayCentiSeconds) {
long seconds = milliSeconds / 1000; // round down to compute seconds
long minutes = seconds / 60;
long hours = minutes / 60;
long remainderMinutes = minutes - (hours * 60);
long remainderSeconds = seconds - (minutes * 60);
StringBuilder timeStringBuilder = new StringBuilder();
// Hours
if (hours > 0) {
if (hours < 10) {
timeStringBuilder.append('0');
}
timeStringBuilder.append(hours);
timeStringBuilder.append(':');
}
// Minutes
if (remainderMinutes < 10) {
timeStringBuilder.append('0');
}
timeStringBuilder.append(remainderMinutes);
timeStringBuilder.append(':');
// Seconds
if (remainderSeconds < 10) {
timeStringBuilder.append('0');
}
timeStringBuilder.append(remainderSeconds);
// Centi seconds
if (displayCentiSeconds) {
timeStringBuilder.append('.');
long remainderCentiSeconds = (milliSeconds - seconds * 1000) / 10;
if (remainderCentiSeconds < 10) {
timeStringBuilder.append('0');
}
timeStringBuilder.append(remainderCentiSeconds);
}
return timeStringBuilder.toString();
}
private long getTimeLapseVideoLength(long deltaMs) {
// For better approximation calculate fractional number of frames captured.
// This will update the video time at a higher resolution.
double numberOfFrames = (double) deltaMs / mTimeBetweenTimeLapseFrameCaptureMs;
return (long) (numberOfFrames / mProfile.videoFrameRate * 1000);
}
private void updateRecordingTime() {
if (!mMediaRecorderRecording) {
return;
}
long now = SystemClock.uptimeMillis();
long delta = now - mRecordingStartTime;
// Starting a minute before reaching the max duration
// limit, we'll countdown the remaining time instead.
boolean countdownRemainingTime = (mMaxVideoDurationInMs != 0
&& delta >= mMaxVideoDurationInMs - 60000);
long deltaAdjusted = delta;
if (countdownRemainingTime) {
deltaAdjusted = Math.max(0, mMaxVideoDurationInMs - deltaAdjusted) + 999;
}
String text;
long targetNextUpdateDelay;
if (!mCaptureTimeLapse) {
text = millisecondToTimeString(deltaAdjusted, false);
targetNextUpdateDelay = 1000;
} else {
// The length of time lapse video is different from the length
// of the actual wall clock time elapsed. Display the video length
// only in format hh:mm:ss.dd, where dd are the centi seconds.
text = millisecondToTimeString(getTimeLapseVideoLength(delta), true);
targetNextUpdateDelay = mTimeBetweenTimeLapseFrameCaptureMs;
}
mRecordingTimeView.setText(text);
if (mRecordingTimeCountsDown != countdownRemainingTime) {
// Avoid setting the color on every update, do it only
// when it needs changing.
mRecordingTimeCountsDown = countdownRemainingTime;
int color = mActivity.getResources().getColor(countdownRemainingTime
? R.color.recording_time_remaining_text
: R.color.recording_time_elapsed_text);
mRecordingTimeView.setTextColor(color);
}
long actualNextUpdateDelay = targetNextUpdateDelay - (delta % targetNextUpdateDelay);
mHandler.sendEmptyMessageDelayed(
UPDATE_RECORD_TIME, actualNextUpdateDelay);
}
private static boolean isSupported(String value, List<String> supported) {
return supported == null ? false : supported.indexOf(value) >= 0;
}
@SuppressWarnings("deprecation")
private void setCameraParameters() {
mParameters.setPreviewSize(mDesiredPreviewWidth, mDesiredPreviewHeight);
mParameters.setPreviewFrameRate(mProfile.videoFrameRate);
// Set flash mode.
String flashMode;
if (mActivity.mShowCameraAppView) {
flashMode = mPreferences.getString(
CameraSettings.KEY_VIDEOCAMERA_FLASH_MODE,
mActivity.getString(R.string.pref_camera_video_flashmode_default));
} else {
flashMode = Parameters.FLASH_MODE_OFF;
}
List<String> supportedFlash = mParameters.getSupportedFlashModes();
if (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 (isSupported(whiteBalance,
mParameters.getSupportedWhiteBalance())) {
mParameters.setWhiteBalance(whiteBalance);
} else {
whiteBalance = mParameters.getWhiteBalance();
if (whiteBalance == null) {
whiteBalance = Parameters.WHITE_BALANCE_AUTO;
}
}
// Set zoom.
if (mParameters.isZoomSupported()) {
mParameters.setZoom(mZoomValue);
}
// Set continuous autofocus.
List<String> supportedFocus = mParameters.getSupportedFocusModes();
if (isSupported(Parameters.FOCUS_MODE_CONTINUOUS_VIDEO, supportedFocus)) {
mParameters.setFocusMode(Parameters.FOCUS_MODE_CONTINUOUS_VIDEO);
}
mParameters.set(Util.RECORDING_HINT, Util.TRUE);
// Enable 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", "true");
}
// Set picture size.
// The logic here is different from the logic in still-mode camera.
// There we determine the preview size based on the picture size, but
// here we determine the picture size based on the preview size.
List<Size> supported = mParameters.getSupportedPictureSizes();
Size optimalSize = Util.getOptimalVideoSnapshotPictureSize(supported,
(double) mDesiredPreviewWidth / mDesiredPreviewHeight);
Size original = mParameters.getPictureSize();
if (!original.equals(optimalSize)) {
mParameters.setPictureSize(optimalSize.width, optimalSize.height);
}
Log.v(TAG, "Video snapshot size is " + optimalSize.width + "x" +
optimalSize.height);
// Set JPEG quality.
int jpegQuality = CameraProfile.getJpegEncodingQualityParameter(mCameraId,
CameraProfile.QUALITY_HIGH);
mParameters.setJpegQuality(jpegQuality);
mActivity.mCameraDevice.setParameters(mParameters);
// Keep preview size up to date.
mParameters = mActivity.mCameraDevice.getParameters();
updateCameraScreenNailSize(mDesiredPreviewWidth, mDesiredPreviewHeight);
}
private void updateCameraScreenNailSize(int width, int height) {
if (!ApiHelper.HAS_SURFACE_TEXTURE) return;
if (mCameraDisplayOrientation % 180 != 0) {
int tmp = width;
width = height;
height = tmp;
}
CameraScreenNail screenNail = (CameraScreenNail) mActivity.mCameraScreenNail;
int oldWidth = screenNail.getWidth();
int oldHeight = screenNail.getHeight();
if (oldWidth != width || oldHeight != height) {
screenNail.setSize(width, height);
screenNail.enableAspectRatioClamping();
mActivity.notifyScreenNailChanged();
}
if (screenNail.getSurfaceTexture() == null) {
screenNail.acquireSurfaceTexture();
}
}
@Override
public void onActivityResult(int requestCode, int resultCode, Intent data) {
switch (requestCode) {
case REQUEST_EFFECT_BACKDROPPER:
if (resultCode == Activity.RESULT_OK) {
// onActivityResult() runs before onResume(), so this parameter will be
// seen by startPreview from onResume()
mEffectUriFromGallery = data.getData().toString();
Log.v(TAG, "Received URI from gallery: " + mEffectUriFromGallery);
mResetEffect = false;
} else {
mEffectUriFromGallery = null;
Log.w(TAG, "No URI from gallery");
mResetEffect = true;
}
break;
}
}
@Override
public void onEffectsUpdate(int effectId, int effectMsg) {
Log.v(TAG, "onEffectsUpdate. Effect Message = " + effectMsg);
if (effectMsg == EffectsRecorder.EFFECT_MSG_EFFECTS_STOPPED) {
// Effects have shut down. Hide learning message if any,
// and restart regular preview.
mBgLearningMessageFrame.setVisibility(View.GONE);
checkQualityAndStartPreview();
} else if (effectMsg == EffectsRecorder.EFFECT_MSG_RECORDING_DONE) {
// This follows the codepath from onStopVideoRecording.
if (mEffectsDisplayResult && !addVideoToMediaStore()) {
if (mIsVideoCaptureIntent) {
if (mQuickCapture) {
doReturnToCaller(true);
} else {
showAlert();
}
}
}
mEffectsDisplayResult = false;
// In onPause, these were not called if the effects were active. We
// had to wait till the effects recording is complete to do this.
if (mPaused) {
closeVideoFileDescriptor();
clearVideoNamer();
}
} else if (effectMsg == EffectsRecorder.EFFECT_MSG_PREVIEW_RUNNING) {
// Enable the shutter button once the preview is complete.
mShutterButton.setEnabled(true);
} else if (effectId == EffectsRecorder.EFFECT_BACKDROPPER) {
switch (effectMsg) {
case EffectsRecorder.EFFECT_MSG_STARTED_LEARNING:
mBgLearningMessageFrame.setVisibility(View.VISIBLE);
break;
case EffectsRecorder.EFFECT_MSG_DONE_LEARNING:
case EffectsRecorder.EFFECT_MSG_SWITCHING_EFFECT:
mBgLearningMessageFrame.setVisibility(View.GONE);
break;
}
}
// In onPause, this was not called if the effects were active. We had to
// wait till the effects completed to do this.
if (mPaused) {
Log.v(TAG, "OnEffectsUpdate: closing effects if activity paused");
closeEffects();
}
}
public void onCancelBgTraining(View v) {
// Remove training message
mBgLearningMessageFrame.setVisibility(View.GONE);
// Write default effect out to shared prefs
writeDefaultEffectToPrefs();
// Tell VideoCamer to re-init based on new shared pref values.
onSharedPreferenceChanged();
}
@Override
public synchronized void onEffectsError(Exception exception, String fileName) {
// TODO: Eventually we may want to show the user an error dialog, and then restart the
// camera and encoder gracefully. For now, we just delete the file and bail out.
if (fileName != null && new File(fileName).exists()) {
deleteVideoFile(fileName);
}
try {
if (Class.forName("android.filterpacks.videosink.MediaRecorderStopException")
.isInstance(exception)) {
Log.w(TAG, "Problem recoding video file. Removing incomplete file.");
return;
}
} catch (ClassNotFoundException ex) {
Log.w(TAG, ex);
}
throw new RuntimeException("Error during recording!", exception);
}
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) {
mPieRenderer.showInCenter();
}
}
});
mOnScreenIndicators = mRootView.findViewById(R.id.on_screen_indicators);
mFlashIndicator = (ImageView) mRootView.findViewById(R.id.menu_flash_indicator);
if (mIsVideoCaptureIntent) {
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);
mReviewPlayButton = (RotateImageView) mRootView.findViewById(R.id.btn_play);
((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);
}
});
((View) mReviewPlayButton).setOnClickListener(new OnClickListener() {
@Override
public void onClick(View v) {
onReviewPlayClicked(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);
}
}
}
private void initializeMiscControls() {
mPreviewFrameLayout = (PreviewFrameLayout) mRootView.findViewById(R.id.frame);
mPreviewFrameLayout.setOnLayoutChangeListener(mActivity);
mReviewImage = (ImageView) mRootView.findViewById(R.id.review_image);
mShutterButton = mActivity.getShutterButton();
mShutterButton.setImageResource(R.drawable.btn_new_shutter_video);
mShutterButton.setOnShutterButtonListener(this);
mShutterButton.requestFocus();
// Disable the shutter button if effects are ON since it might take
// a little more time for the effects preview to be ready. We do not
// want to allow recording before that happens. The shutter button
// will be enabled when we get the message from effectsrecorder that
// the preview is running. This becomes critical when the camera is
// swapped.
if (effectsActive()) {
mShutterButton.setEnabled(false);
}
mRecordingTimeView = (TextView) mRootView.findViewById(R.id.recording_time);
mRecordingTimeRect = (RotateLayout) mRootView.findViewById(R.id.recording_time_rect);
mTimeLapseLabel = mRootView.findViewById(R.id.time_lapse_label);
// The R.id.labels can only be found in phone layout.
// That is, mLabelsLinearLayout should be null in tablet layout.
mLabelsLinearLayout = (LinearLayout) mRootView.findViewById(R.id.labels);
mBgLearningMessageRotater = (RotateLayout) mRootView.findViewById(R.id.bg_replace_message);
mBgLearningMessageFrame = mRootView.findViewById(R.id.bg_replace_message_frame);
}
@Override
public void onConfigurationChanged(Configuration newConfig) {
setDisplayOrientation();
// Change layout in response to configuration change
LayoutInflater inflater = mActivity.getLayoutInflater();
((ViewGroup) mRootView).removeAllViews();
inflater.inflate(R.layout.video_module, (ViewGroup) mRootView);
// from onCreate()
initializeControlByIntent();
initializeOverlay();
initializeSurfaceView();
initializeMiscControls();
showTimeLapseUI(mCaptureTimeLapse);
initializeVideoSnapshot();
resizeForPreviewAspectRatio();
// from onResume()
showVideoSnapshotUI(false);
initializeZoom();
onFullScreenChanged(mActivity.isInCameraApp());
updateOnScreenIndicators();
}
@Override
public void onOverriddenPreferencesClicked() {
}
@Override
// TODO: Delete this after old camera code is removed
public void onRestorePreferencesClicked() {
}
private boolean effectsActive() {
return (mEffectType != EffectsRecorder.EFFECT_NONE);
}
@Override
public void onSharedPreferenceChanged() {
// ignore the events after "onPause()" or preview has not started yet
if (mPaused) return;
synchronized (mPreferences) {
// If mCameraDevice is not ready then we can set the parameter in
// startPreview().
if (mActivity.mCameraDevice == null) return;
boolean recordLocation = RecordLocationPreference.get(
mPreferences, mContentResolver);
mLocationManager.recordLocation(recordLocation);
// Check if the current effects selection has changed
if (updateEffectSelection()) return;
readVideoPreferences();
showTimeLapseUI(mCaptureTimeLapse);
// We need to restart the preview if preview size is changed.
Size size = mParameters.getPreviewSize();
if (size.width != mDesiredPreviewWidth
|| size.height != mDesiredPreviewHeight) {
if (!effectsActive()) {
stopPreview();
} else {
mEffectsRecorder.release();
mEffectsRecorder = null;
}
resizeForPreviewAspectRatio();
startPreview(); // Parameters will be set in startPreview().
} else {
setCameraParameters();
}
updateOnScreenIndicators();
}
}
private void updateOnScreenIndicators() {
updateFlashOnScreenIndicator(mParameters.getFlashMode());
}
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) ||
Parameters.FLASH_MODE_TORCH.equals(value)) {
mFlashIndicator.setImageResource(R.drawable.ic_indicator_flash_on);
} else {
mFlashIndicator.setImageResource(R.drawable.ic_indicator_flash_off);
}
}
}
private void switchCamera() {
if (mPaused) return;
Log.d(TAG, "Start to switch camera.");
mCameraId = mPendingSwitchCameraId;
mPendingSwitchCameraId = -1;
mVideoControl.setCameraId(mCameraId);
closeCamera();
// Restart the camera and initialize the UI. From onCreate.
mPreferences.setLocalId(mActivity, mCameraId);
CameraSettings.upgradeLocalPreferences(mPreferences.getLocal());
openCamera();
readVideoPreferences();
startPreview();
initializeVideoSnapshot();
resizeForPreviewAspectRatio();
initializeVideoControl();
// From onResume
initializeZoom();
setOrientationIndicator(0, false);
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);
}
updateOnScreenIndicators();
}
// 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() {
}
private boolean updateEffectSelection() {
int previousEffectType = mEffectType;
Object previousEffectParameter = mEffectParameter;
mEffectType = CameraSettings.readEffectType(mPreferences);
mEffectParameter = CameraSettings.readEffectParameter(mPreferences);
if (mEffectType == previousEffectType) {
if (mEffectType == EffectsRecorder.EFFECT_NONE) return false;
if (mEffectParameter.equals(previousEffectParameter)) return false;
}
Log.v(TAG, "New effect selection: " + mPreferences.getString(
CameraSettings.KEY_VIDEO_EFFECT, "none"));
if (mEffectType == EffectsRecorder.EFFECT_NONE) {
// Stop effects and return to normal preview
mEffectsRecorder.stopPreview();
mPreviewing = false;
return true;
}
if (mEffectType == EffectsRecorder.EFFECT_BACKDROPPER &&
((String) mEffectParameter).equals(EFFECT_BG_FROM_GALLERY)) {
// Request video from gallery to use for background
Intent i = new Intent(Intent.ACTION_PICK);
i.setDataAndType(Video.Media.EXTERNAL_CONTENT_URI,
"video/*");
i.putExtra(Intent.EXTRA_LOCAL_ONLY, true);
mActivity.startActivityForResult(i, REQUEST_EFFECT_BACKDROPPER);
return true;
}
if (previousEffectType == EffectsRecorder.EFFECT_NONE) {
// Stop regular preview and start effects.
stopPreview();
checkQualityAndStartPreview();
} else {
// Switch currently running effect
mEffectsRecorder.setEffect(mEffectType, mEffectParameter);
}
return true;
}
// Verifies that the current preview view size is correct before starting
// preview. If not, resets the surface texture and resizes the view.
private void checkQualityAndStartPreview() {
readVideoPreferences();
showTimeLapseUI(mCaptureTimeLapse);
Size size = mParameters.getPreviewSize();
if (size.width != mDesiredPreviewWidth
|| size.height != mDesiredPreviewHeight) {
resizeForPreviewAspectRatio();
}
// Start up preview again
startPreview();
}
private void showTimeLapseUI(boolean enable) {
if (mTimeLapseLabel != null) {
mTimeLapseLabel.setVisibility(enable ? View.VISIBLE : View.GONE);
}
}
@Override
public boolean dispatchTouchEvent(MotionEvent m) {
if (mSwitchingCamera) return true;
if (mPopup == null && mGestures != null && mRenderOverlay != null) {
return mGestures.dispatchTouch(m);
} else if (mPopup != null) {
return mActivity.superDispatchTouchEvent(m);
}
return false;
}
private class ZoomChangeListener implements ZoomRenderer.OnZoomChangedListener {
@Override
public void onZoomValueChanged(int value) {
// Not useful to change zoom value when the activity is paused.
if (mPaused) return;
mZoomValue = value;
// Set zoom parameters asynchronously
mParameters.setZoom(mZoomValue);
mActivity.mCameraDevice.setParametersAsync(mParameters);
Parameters p = mActivity.mCameraDevice.getParameters();
mZoomRenderer.setZoomValue(mZoomRatios.get(p.getZoom()));
}
@Override
public void onZoomStart() {
}
@Override
public void onZoomEnd() {
}
}
private void initializeZoom() {
if (!mParameters.isZoomSupported()) 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.
mZoomRenderer.setZoomMax(mZoomMax);
mZoomRenderer.setZoom(mParameters.getZoom());
mZoomRenderer.setZoomValue(mZoomRatios.get(mParameters.getZoom()));
mZoomRenderer.setOnZoomChangeListener(new ZoomChangeListener());
}
private void initializeVideoSnapshot() {
if (Util.isVideoSnapshotSupported(mParameters) && !mIsVideoCaptureIntent) {
mActivity.setSingleTapUpListener(mPreviewFrameLayout);
// Show the tap to focus toast if this is the first start.
if (mPreferences.getBoolean(
CameraSettings.KEY_VIDEO_FIRST_USE_HINT_SHOWN, true)) {
// Delay the toast for one second to wait for orientation.
mHandler.sendEmptyMessageDelayed(SHOW_TAP_TO_SNAPSHOT_TOAST, 1000);
}
} else {
mActivity.setSingleTapUpListener(null);
}
}
void showVideoSnapshotUI(boolean enabled) {
if (Util.isVideoSnapshotSupported(mParameters) && !mIsVideoCaptureIntent) {
if (ApiHelper.HAS_SURFACE_TEXTURE && enabled) {
((CameraScreenNail) mActivity.mCameraScreenNail).animateCapture(mDisplayRotation);
} else {
mPreviewFrameLayout.showBorder(enabled);
}
mShutterButton.setEnabled(!enabled);
}
}
// Preview area is touched. Take a picture.
@Override
public void onSingleTapUp(View view, int x, int y) {
if (mMediaRecorderRecording && effectsActive()) {
new RotateTextToast(mActivity, R.string.disable_video_snapshot_hint,
mOrientation).show();
return;
}
if (mPaused || mSnapshotInProgress || effectsActive()) {
return;
}
if (!mMediaRecorderRecording) {
// check for dismissing popup
if (mPopup != null) {
dismissPopup(true);
}
return;
}
// Set rotation and gps data.
int rotation = Util.getJpegRotation(mCameraId, mOrientation);
mParameters.setRotation(rotation);
Location loc = mLocationManager.getCurrentLocation();
Util.setGpsParameters(mParameters, loc);
mActivity.mCameraDevice.setParameters(mParameters);
Log.v(TAG, "Video snapshot start");
mActivity.mCameraDevice.takePicture(null, null, null, new JpegPictureCallback(loc));
showVideoSnapshotUI(true);
mSnapshotInProgress = true;
}
@Override
public void updateCameraAppView() {
if (!mPreviewing || mParameters.getFlashMode() == null) return;
// When going to and back from gallery, we need to turn off/on the flash.
if (!mActivity.mShowCameraAppView) {
if (mParameters.getFlashMode().equals(Parameters.FLASH_MODE_OFF)) {
mRestoreFlash = false;
return;
}
mRestoreFlash = true;
setCameraParameters();
} else if (mRestoreFlash) {
mRestoreFlash = false;
setCameraParameters();
}
}
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 (mGestures != null) {
mGestures.setEnabled(full);
}
if (mPopup != null) {
dismissPopup(false, full);
}
if (mRenderOverlay != null) {
// this can not happen in capture mode
mRenderOverlay.setVisibility(full ? View.VISIBLE : View.GONE);
}
setShowMenu(full);
if (mBlocker != null) {
// this can not happen in capture mode
mBlocker.setVisibility(full ? View.VISIBLE : View.GONE);
}
if (ApiHelper.HAS_SURFACE_TEXTURE) {
if (mActivity.mCameraScreenNail != null) {
((CameraScreenNail) mActivity.mCameraScreenNail).setFullScreen(full);
}
return;
}
if (full) {
mPreviewSurfaceView.expand();
} else {
mPreviewSurfaceView.shrink();
}
}
private final class JpegPictureCallback implements PictureCallback {
Location mLocation;
public JpegPictureCallback(Location loc) {
mLocation = loc;
}
@Override
public void onPictureTaken(byte [] jpegData, android.hardware.Camera camera) {
Log.v(TAG, "onPictureTaken");
mSnapshotInProgress = false;
showVideoSnapshotUI(false);
storeImage(jpegData, mLocation);
}
}
private void storeImage(final byte[] data, Location loc) {
long dateTaken = System.currentTimeMillis();
String title = Util.createJpegName(dateTaken);
int orientation = Exif.getOrientation(data);
Size s = mParameters.getPictureSize();
Uri uri = Storage.addImage(mContentResolver, title, dateTaken, loc, orientation, data,
s.width, s.height);
if (uri != null) {
Util.broadcastNewPicture(mActivity, uri);
}
}
private boolean resetEffect() {
if (mResetEffect) {
String value = mPreferences.getString(CameraSettings.KEY_VIDEO_EFFECT,
mPrefVideoEffectDefault);
if (!mPrefVideoEffectDefault.equals(value)) {
writeDefaultEffectToPrefs();
return true;
}
}
mResetEffect = true;
return false;
}
private String convertOutputFormatToMimeType(int outputFileFormat) {
if (outputFileFormat == MediaRecorder.OutputFormat.MPEG_4) {
return "video/mp4";
}
return "video/3gpp";
}
private String convertOutputFormatToFileExt(int outputFileFormat) {
if (outputFileFormat == MediaRecorder.OutputFormat.MPEG_4) {
return ".mp4";
}
return ".3gp";
}
private void closeVideoFileDescriptor() {
if (mVideoFileDescriptor != null) {
try {
mVideoFileDescriptor.close();
} catch (IOException e) {
Log.e(TAG, "Fail to close fd", e);
}
mVideoFileDescriptor = null;
}
}
private void showTapToSnapshotToast() {
new RotateTextToast(mActivity, R.string.video_snapshot_hint, 0)
.show();
// Clear the preference.
Editor editor = mPreferences.edit();
editor.putBoolean(CameraSettings.KEY_VIDEO_FIRST_USE_HINT_SHOWN, false);
editor.apply();
}
private void clearVideoNamer() {
if (mVideoNamer != null) {
mVideoNamer.finish();
mVideoNamer = null;
}
}
private static class VideoNamer extends Thread {
private boolean mRequestPending;
private ContentResolver mResolver;
private ContentValues mValues;
private boolean mStop;
private Uri mUri;
// Runs in main thread
public VideoNamer() {
start();
}
// Runs in main thread
public synchronized void prepareUri(
ContentResolver resolver, ContentValues values) {
mRequestPending = true;
mResolver = resolver;
mValues = new ContentValues(values);
notifyAll();
}
// Runs in main thread
public synchronized Uri getUri() {
// wait until the request is done.
while (mRequestPending) {
try {
wait();
} catch (InterruptedException ex) {
// ignore.
}
}
Uri uri = mUri;
mUri = null;
return uri;
}
// 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() {
Uri videoTable = Uri.parse("content://media/external/video/media");
mUri = mResolver.insert(videoTable, mValues);
}
// Runs in namer thread
private void cleanOldUri() {
if (mUri == null) return;
mResolver.delete(mUri, null, null);
mUri = null;
}
}
private class SurfaceViewCallback implements SurfaceHolder.Callback {
public SurfaceViewCallback() {}
@Override
public void surfaceChanged(SurfaceHolder holder, int format, int width, int height) {
Log.v(TAG, "Surface changed. width=" + width + ". height=" + height);
}
@Override
public void surfaceCreated(SurfaceHolder holder) {
Log.v(TAG, "Surface created");
mSurfaceViewReady = true;
if (mPaused) return;
if (!ApiHelper.HAS_SURFACE_TEXTURE) {
mActivity.mCameraDevice.setPreviewDisplayAsync(mPreviewSurfaceView.getHolder());
if (!mPreviewing) {
startPreview();
}
}
}
@Override
public void surfaceDestroyed(SurfaceHolder holder) {
Log.v(TAG, "Surface destroyed");
mSurfaceViewReady = false;
if (mPaused) return;
if (!ApiHelper.HAS_SURFACE_TEXTURE) {
stopVideoRecording();
stopPreview();
}
}
}
@Override
public boolean updateStorageHintOnResume() {
return true;
}
// required by OnPreferenceChangedListener
@Override
public void onCameraPickerClicked(int cameraId) {
if (mPaused || mPendingSwitchCameraId != -1) return;
mPendingSwitchCameraId = cameraId;
if (ApiHelper.HAS_SURFACE_TEXTURE) {
Log.d(TAG, "Start to copy texture.");
// 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.
mSwitchingCamera = true;
} else {
switchCamera();
}
}
@Override
public boolean needsSwitcher() {
return !mIsVideoCaptureIntent;
}
@Override
public void onPieOpened(int centerX, int centerY) {
mActivity.cancelActivityTouchHandling();
mActivity.setSwipingEnabled(false);
}
@Override
public void onPieClosed() {
mActivity.setSwipingEnabled(true);
}
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 topLevelOnly) {
dismissPopup(topLevelOnly, true);
}
public void dismissPopup(boolean topLevelPopupOnly, boolean fullScreen) {
if (fullScreen) {
mActivity.showUI();
mBlocker.setVisibility(View.VISIBLE);
}
setShowMenu(fullScreen);
if (mPopup != null) {
((FrameLayout) mRootView).removeView(mPopup);
mPopup = null;
}
mVideoControl.popupDismissed(topLevelPopupOnly);
}
@Override
public void onShowSwitcherPopup() {
if (mPieRenderer.showsItems()) {
mPieRenderer.hide();
}
}
}