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|
/*
* Copyright (C) 2011 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.content.Context;
import android.content.res.AssetFileDescriptor;
import android.filterfw.GraphEnvironment;
import android.filterfw.core.Filter;
import android.filterfw.core.GLEnvironment;
import android.filterfw.core.GraphRunner;
import android.filterfw.core.GraphRunner.OnRunnerDoneListener;
import android.filterfw.geometry.Point;
import android.filterfw.geometry.Quad;
import android.filterpacks.videoproc.BackDropperFilter;
import android.filterpacks.videoproc.BackDropperFilter.LearningDoneListener;
import android.filterpacks.videosink.MediaEncoderFilter.OnRecordingDoneListener;
import android.filterpacks.videosrc.SurfaceTextureSource.SurfaceTextureSourceListener;
import android.graphics.SurfaceTexture;
import android.hardware.Camera;
import android.media.MediaRecorder;
import android.media.CamcorderProfile;
import android.os.Handler;
import android.os.Looper;
import android.os.ParcelFileDescriptor;
import android.util.Log;
import android.view.Surface;
import android.view.SurfaceHolder;
import java.io.IOException;
import java.io.FileNotFoundException;
import java.io.File;
import java.lang.Runnable;
import java.io.FileDescriptor;
/**
* Encapsulates the mobile filter framework components needed to record video with
* effects applied. Modeled after MediaRecorder.
*/
public class EffectsRecorder {
public static final int EFFECT_NONE = 0;
public static final int EFFECT_GOOFY_FACE = 1;
public static final int EFFECT_BACKDROPPER = 2;
public static final int EFFECT_GF_SQUEEZE = 0;
public static final int EFFECT_GF_BIG_EYES = 1;
public static final int EFFECT_GF_BIG_MOUTH = 2;
public static final int EFFECT_GF_SMALL_MOUTH = 3;
public static final int EFFECT_GF_BIG_NOSE = 4;
public static final int EFFECT_GF_SMALL_EYES = 5;
public static final int NUM_OF_GF_EFFECTS = EFFECT_GF_SMALL_EYES + 1;
public static final int EFFECT_MSG_STARTED_LEARNING = 0;
public static final int EFFECT_MSG_DONE_LEARNING = 1;
public static final int EFFECT_MSG_SWITCHING_EFFECT = 2;
public static final int EFFECT_MSG_EFFECTS_STOPPED = 3;
public static final int EFFECT_MSG_RECORDING_DONE = 4;
public static final int EFFECT_MSG_PREVIEW_RUNNING = 5;
private Context mContext;
private Handler mHandler;
private boolean mReleased;
private Camera mCameraDevice;
private CamcorderProfile mProfile;
private double mCaptureRate = 0;
private SurfaceHolder mPreviewSurfaceHolder;
private int mPreviewWidth;
private int mPreviewHeight;
private MediaRecorder.OnInfoListener mInfoListener;
private MediaRecorder.OnErrorListener mErrorListener;
private String mOutputFile;
private FileDescriptor mFd;
private int mOrientationHint = 0;
private long mMaxFileSize = 0;
private int mMaxDurationMs = 0;
private int mCameraFacing = Camera.CameraInfo.CAMERA_FACING_BACK;
private boolean mAppIsLandscape;
private int mEffect = EFFECT_NONE;
private int mCurrentEffect = EFFECT_NONE;
private EffectsListener mEffectsListener;
private Object mEffectParameter;
private GraphEnvironment mGraphEnv;
private int mGraphId;
private GraphRunner mRunner = null;
private GraphRunner mOldRunner = null;
private SurfaceTexture mTextureSource;
private static final int STATE_CONFIGURE = 0;
private static final int STATE_WAITING_FOR_SURFACE = 1;
private static final int STATE_STARTING_PREVIEW = 2;
private static final int STATE_PREVIEW = 3;
private static final int STATE_RECORD = 4;
private static final int STATE_RELEASED = 5;
private int mState = STATE_CONFIGURE;
private boolean mLogVerbose = Log.isLoggable(TAG, Log.VERBOSE);
private static final String TAG = "effectsrecorder";
/** Determine if a given effect is supported at runtime
* Some effects require libraries not available on all devices
*/
public static boolean isEffectSupported(int effectId) {
switch (effectId) {
case EFFECT_GOOFY_FACE:
return Filter.isAvailable("com.google.android.filterpacks.facedetect.GoofyRenderFilter");
case EFFECT_BACKDROPPER:
return Filter.isAvailable("android.filterpacks.videoproc.BackDropperFilter");
default:
return false;
}
}
public EffectsRecorder(Context context) {
if (mLogVerbose) Log.v(TAG, "EffectsRecorder created (" + this + ")");
mContext = context;
mHandler = new Handler(Looper.getMainLooper());
}
public void setCamera(Camera cameraDevice) {
switch (mState) {
case STATE_PREVIEW:
throw new RuntimeException("setCamera cannot be called while previewing!");
case STATE_RECORD:
throw new RuntimeException("setCamera cannot be called while recording!");
case STATE_RELEASED:
throw new RuntimeException("setCamera called on an already released recorder!");
default:
break;
}
mCameraDevice = cameraDevice;
}
public void setProfile(CamcorderProfile profile) {
switch (mState) {
case STATE_RECORD:
throw new RuntimeException("setProfile cannot be called while recording!");
case STATE_RELEASED:
throw new RuntimeException("setProfile called on an already released recorder!");
default:
break;
}
mProfile = profile;
}
public void setOutputFile(String outputFile) {
switch (mState) {
case STATE_RECORD:
throw new RuntimeException("setOutputFile cannot be called while recording!");
case STATE_RELEASED:
throw new RuntimeException("setOutputFile called on an already released recorder!");
default:
break;
}
mOutputFile = outputFile;
mFd = null;
}
public void setOutputFile(FileDescriptor fd) {
switch (mState) {
case STATE_RECORD:
throw new RuntimeException("setOutputFile cannot be called while recording!");
case STATE_RELEASED:
throw new RuntimeException("setOutputFile called on an already released recorder!");
default:
break;
}
mOutputFile = null;
mFd = fd;
}
/**
* Sets the maximum filesize (in bytes) of the recording session.
* This will be passed on to the MediaEncoderFilter and then to the
* MediaRecorder ultimately. If zero or negative, the MediaRecorder will
* disable the limit
*/
public synchronized void setMaxFileSize(long maxFileSize) {
switch (mState) {
case STATE_RECORD:
throw new RuntimeException("setMaxFileSize cannot be called while recording!");
case STATE_RELEASED:
throw new RuntimeException("setMaxFileSize called on an already released recorder!");
default:
break;
}
mMaxFileSize = maxFileSize;
}
/**
* Sets the maximum recording duration (in ms) for the next recording session
* Setting it to zero (the default) disables the limit.
*/
public synchronized void setMaxDuration(int maxDurationMs) {
switch (mState) {
case STATE_RECORD:
throw new RuntimeException("setMaxDuration cannot be called while recording!");
case STATE_RELEASED:
throw new RuntimeException("setMaxDuration called on an already released recorder!");
default:
break;
}
mMaxDurationMs = maxDurationMs;
}
public void setCaptureRate(double fps) {
switch (mState) {
case STATE_RECORD:
throw new RuntimeException("setCaptureRate cannot be called while recording!");
case STATE_RELEASED:
throw new RuntimeException("setCaptureRate called on an already released recorder!");
default:
break;
}
if (mLogVerbose) Log.v(TAG, "Setting time lapse capture rate to " + fps + " fps");
mCaptureRate = fps;
}
public void setPreviewDisplay(SurfaceHolder previewSurfaceHolder,
int previewWidth,
int previewHeight) {
if (mLogVerbose) Log.v(TAG, "setPreviewDisplay (" + this + ")");
switch (mState) {
case STATE_RECORD:
throw new RuntimeException("setPreviewDisplay cannot be called while recording!");
case STATE_RELEASED:
throw new RuntimeException("setPreviewDisplay called on an already released recorder!");
default:
break;
}
mPreviewSurfaceHolder = previewSurfaceHolder;
mPreviewWidth = previewWidth;
mPreviewHeight = previewHeight;
switch (mState) {
case STATE_WAITING_FOR_SURFACE:
startPreview();
break;
case STATE_STARTING_PREVIEW:
case STATE_PREVIEW:
initializeEffect(true);
break;
}
}
public void setEffect(int effect, Object effectParameter) {
if (mLogVerbose) Log.v(TAG,
"setEffect: effect ID " + effect +
", parameter " + effectParameter.toString() );
switch (mState) {
case STATE_RECORD:
throw new RuntimeException("setEffect cannot be called while recording!");
case STATE_RELEASED:
throw new RuntimeException("setEffect called on an already released recorder!");
default:
break;
}
mEffect = effect;
mEffectParameter = effectParameter;
if (mState == STATE_PREVIEW ||
mState == STATE_STARTING_PREVIEW) {
initializeEffect(false);
}
}
public interface EffectsListener {
public void onEffectsUpdate(int effectId, int effectMsg);
public void onEffectsError(Exception exception, String filePath);
}
public void setEffectsListener(EffectsListener listener) {
mEffectsListener = listener;
}
private void setFaceDetectOrientation() {
if (mCurrentEffect == EFFECT_GOOFY_FACE) {
Filter rotateFilter = mRunner.getGraph().getFilter("rotate");
Filter metaRotateFilter = mRunner.getGraph().getFilter("metarotate");
rotateFilter.setInputValue("rotation", mOrientationHint);
int reverseDegrees = (360 - mOrientationHint) % 360;
metaRotateFilter.setInputValue("rotation", reverseDegrees);
}
}
private void setRecordingOrientation() {
if ( mState != STATE_RECORD && mRunner != null) {
Point bl = new Point(0, 0);
Point br = new Point(1, 0);
Point tl = new Point(0, 1);
Point tr = new Point(1, 1);
Quad recordingRegion;
if (mCameraFacing == Camera.CameraInfo.CAMERA_FACING_BACK) {
// The back camera is not mirrored, so use a identity transform
recordingRegion = new Quad(bl, br, tl, tr);
} else {
// Recording region needs to be tweaked for front cameras, since they
// mirror their preview
if (mOrientationHint == 0 || mOrientationHint == 180) {
// Horizontal flip in landscape
recordingRegion = new Quad(br, bl, tr, tl);
} else {
// Horizontal flip in portrait
recordingRegion = new Quad(tl, tr, bl, br);
}
}
Filter recorder = mRunner.getGraph().getFilter("recorder");
recorder.setInputValue("inputRegion", recordingRegion);
}
}
public void setOrientationHint(int degrees) {
switch (mState) {
case STATE_RELEASED:
throw new RuntimeException(
"setOrientationHint called on an already released recorder!");
default:
break;
}
if (mLogVerbose) Log.v(TAG, "Setting orientation hint to: " + degrees);
mOrientationHint = degrees;
setFaceDetectOrientation();
setRecordingOrientation();
}
/** Passes the native orientation of the Camera app (device dependent)
* to allow for correct output aspect ratio. Defaults to portrait */
public void setAppToLandscape(boolean landscape) {
if (mState != STATE_CONFIGURE) {
throw new RuntimeException(
"setAppToLandscape called after configuration!");
}
mAppIsLandscape = landscape;
}
public void setCameraFacing(int facing) {
switch (mState) {
case STATE_RELEASED:
throw new RuntimeException(
"setCameraFacing called on alrady released recorder!");
default:
break;
}
mCameraFacing = facing;
setRecordingOrientation();
}
public void setOnInfoListener(MediaRecorder.OnInfoListener infoListener) {
switch (mState) {
case STATE_RECORD:
throw new RuntimeException("setInfoListener cannot be called while recording!");
case STATE_RELEASED:
throw new RuntimeException("setInfoListener called on an already released recorder!");
default:
break;
}
mInfoListener = infoListener;
}
public void setOnErrorListener(MediaRecorder.OnErrorListener errorListener) {
switch (mState) {
case STATE_RECORD:
throw new RuntimeException("setErrorListener cannot be called while recording!");
case STATE_RELEASED:
throw new RuntimeException("setErrorListener called on an already released recorder!");
default:
break;
}
mErrorListener = errorListener;
}
private void initializeFilterFramework() {
mGraphEnv = new GraphEnvironment();
mGraphEnv.createGLEnvironment();
if (mLogVerbose) {
Log.v(TAG, "Effects framework initializing. Recording size "
+ mProfile.videoFrameWidth + ", " + mProfile.videoFrameHeight);
}
if (!mAppIsLandscape) {
int tmp;
tmp = mProfile.videoFrameWidth;
mProfile.videoFrameWidth = mProfile.videoFrameHeight;
mProfile.videoFrameHeight = tmp;
}
mGraphEnv.addReferences(
"textureSourceCallback", mSourceReadyCallback,
"recordingWidth", mProfile.videoFrameWidth,
"recordingHeight", mProfile.videoFrameHeight,
"recordingProfile", mProfile,
"learningDoneListener", mLearningDoneListener,
"recordingDoneListener", mRecordingDoneListener);
mRunner = null;
mGraphId = -1;
mCurrentEffect = EFFECT_NONE;
}
private synchronized void initializeEffect(boolean forceReset) {
if (forceReset ||
mCurrentEffect != mEffect ||
mCurrentEffect == EFFECT_BACKDROPPER) {
if (mLogVerbose) {
Log.v(TAG, "Effect initializing. Preview size "
+ mPreviewWidth + ", " + mPreviewHeight);
}
mGraphEnv.addReferences(
"previewSurface", mPreviewSurfaceHolder.getSurface(),
"previewWidth", mPreviewWidth,
"previewHeight", mPreviewHeight,
"orientation", mOrientationHint);
if (mState == STATE_PREVIEW ||
mState == STATE_STARTING_PREVIEW) {
// Switching effects while running. Inform video camera.
sendMessage(mCurrentEffect, EFFECT_MSG_SWITCHING_EFFECT);
}
switch (mEffect) {
case EFFECT_GOOFY_FACE:
mGraphId = mGraphEnv.loadGraph(mContext, R.raw.goofy_face);
break;
case EFFECT_BACKDROPPER:
sendMessage(EFFECT_BACKDROPPER, EFFECT_MSG_STARTED_LEARNING);
mGraphId = mGraphEnv.loadGraph(mContext, R.raw.backdropper);
break;
default:
throw new RuntimeException("Unknown effect ID" + mEffect + "!");
}
mCurrentEffect = mEffect;
mOldRunner = mRunner;
mRunner = mGraphEnv.getRunner(mGraphId, GraphEnvironment.MODE_ASYNCHRONOUS);
mRunner.setDoneCallback(mRunnerDoneCallback);
if (mLogVerbose) {
Log.v(TAG, "New runner: " + mRunner
+ ". Old runner: " + mOldRunner);
}
if (mState == STATE_PREVIEW ||
mState == STATE_STARTING_PREVIEW) {
// Switching effects while running. Stop existing runner.
// The stop callback will take care of starting new runner.
mCameraDevice.stopPreview();
try {
mCameraDevice.setPreviewTexture(null);
} catch(IOException e) {
throw new RuntimeException("Unable to connect camera to effect input", e);
}
mOldRunner.stop();
}
}
switch (mCurrentEffect) {
case EFFECT_GOOFY_FACE:
tryEnableVideoStabilization(true);
Filter goofyFilter = mRunner.getGraph().getFilter("goofyrenderer");
goofyFilter.setInputValue("currentEffect",
((Integer)mEffectParameter).intValue());
break;
case EFFECT_BACKDROPPER:
tryEnableVideoStabilization(false);
Filter backgroundSrc = mRunner.getGraph().getFilter("background");
backgroundSrc.setInputValue("sourceUrl",
(String)mEffectParameter);
// For front camera, the background video needs to be mirrored in the
// backdropper filter
if (mCameraFacing == Camera.CameraInfo.CAMERA_FACING_FRONT) {
Filter replacer = mRunner.getGraph().getFilter("replacer");
replacer.setInputValue("mirrorBg", true);
if (mLogVerbose) Log.v(TAG, "Setting the background to be mirrored");
}
break;
default:
break;
}
setFaceDetectOrientation();
setRecordingOrientation();
}
public synchronized void startPreview() {
if (mLogVerbose) Log.v(TAG, "Starting preview (" + this + ")");
switch (mState) {
case STATE_STARTING_PREVIEW:
case STATE_PREVIEW:
// Already running preview
Log.w(TAG, "startPreview called when already running preview");
return;
case STATE_RECORD:
throw new RuntimeException("Cannot start preview when already recording!");
case STATE_RELEASED:
throw new RuntimeException("setEffect called on an already released recorder!");
default:
break;
}
if (mEffect == EFFECT_NONE) {
throw new RuntimeException("No effect selected!");
}
if (mEffectParameter == null) {
throw new RuntimeException("No effect parameter provided!");
}
if (mProfile == null) {
throw new RuntimeException("No recording profile provided!");
}
if (mPreviewSurfaceHolder == null) {
if (mLogVerbose) Log.v(TAG, "Passed a null surface holder; waiting for valid one");
mState = STATE_WAITING_FOR_SURFACE;
return;
}
if (mCameraDevice == null) {
throw new RuntimeException("No camera to record from!");
}
if (mLogVerbose) Log.v(TAG, "Initializing filter graph");
initializeFilterFramework();
initializeEffect(true);
if (mLogVerbose) Log.v(TAG, "Starting filter graph");
mState = STATE_STARTING_PREVIEW;
mRunner.run();
// Rest of preview startup handled in mSourceReadyCallback
}
private SurfaceTextureSourceListener mSourceReadyCallback =
new SurfaceTextureSourceListener() {
public void onSurfaceTextureSourceReady(SurfaceTexture source) {
if (mLogVerbose) Log.v(TAG, "SurfaceTexture ready callback received");
synchronized(EffectsRecorder.this) {
mTextureSource = source;
if (mState == STATE_CONFIGURE) {
// Stop preview happened while the runner was doing startup tasks
// Since we haven't started anything up, don't do anything
// Rest of cleanup will happen in onRunnerDone
if (mLogVerbose) Log.v(TAG, "Ready callback: Already stopped, skipping.");
return;
}
if (mState == STATE_RELEASED) {
// EffectsRecorder has been released, so don't touch the camera device
// or anything else
if (mLogVerbose) Log.v(TAG, "Ready callback: Already released, skipping.");
return;
}
if (source == null) {
if (mState == STATE_PREVIEW ||
mState == STATE_STARTING_PREVIEW ||
mState == STATE_RECORD) {
// A null source here means the graph is shutting down
// unexpectedly, so we need to turn off preview before
// the surface texture goes away.
mCameraDevice.stopPreview();
try {
mCameraDevice.setPreviewTexture(null);
} catch(IOException e) {
throw new RuntimeException("Unable to disconnect " +
"camera from effect input", e);
}
}
return;
}
// Lock AE/AWB to reduce transition flicker
tryEnable3ALocks(true);
mCameraDevice.stopPreview();
if (mLogVerbose) Log.v(TAG, "Runner active, connecting effects preview");
try {
mCameraDevice.setPreviewTexture(mTextureSource);
} catch(IOException e) {
throw new RuntimeException("Unable to connect camera to effect input", e);
}
mCameraDevice.startPreview();
// Unlock AE/AWB after preview started
tryEnable3ALocks(false);
mState = STATE_PREVIEW;
if (mLogVerbose) Log.v(TAG, "Start preview/effect switch complete");
// Sending a message to listener that preview is complete
sendMessage(mCurrentEffect, EFFECT_MSG_PREVIEW_RUNNING);
}
}
};
private LearningDoneListener mLearningDoneListener =
new LearningDoneListener() {
public void onLearningDone(BackDropperFilter filter) {
if (mLogVerbose) Log.v(TAG, "Learning done callback triggered");
// Called in a processing thread, so have to post message back to UI
// thread
sendMessage(EFFECT_BACKDROPPER, EFFECT_MSG_DONE_LEARNING);
enable3ALocks(true);
}
};
// A callback to finalize the media after the recording is done.
private OnRecordingDoneListener mRecordingDoneListener =
new OnRecordingDoneListener() {
// Forward the callback to the VideoCamera object (as an asynchronous event).
public void onRecordingDone() {
if (mLogVerbose) Log.v(TAG, "Recording done callback triggered");
sendMessage(EFFECT_NONE, EFFECT_MSG_RECORDING_DONE);
}
};
public synchronized void startRecording() {
if (mLogVerbose) Log.v(TAG, "Starting recording (" + this + ")");
switch (mState) {
case STATE_RECORD:
throw new RuntimeException("Already recording, cannot begin anew!");
case STATE_RELEASED:
throw new RuntimeException("startRecording called on an already released recorder!");
default:
break;
}
if ((mOutputFile == null) && (mFd == null)) {
throw new RuntimeException("No output file name or descriptor provided!");
}
if (mState == STATE_CONFIGURE) {
startPreview();
}
Filter recorder = mRunner.getGraph().getFilter("recorder");
if (mFd != null) {
recorder.setInputValue("outputFileDescriptor", mFd);
} else {
recorder.setInputValue("outputFile", mOutputFile);
}
// It is ok to set the audiosource without checking for timelapse here
// since that check will be done in the MediaEncoderFilter itself
recorder.setInputValue("audioSource", MediaRecorder.AudioSource.CAMCORDER);
recorder.setInputValue("recordingProfile", mProfile);
recorder.setInputValue("orientationHint", mOrientationHint);
// Important to set the timelapseinterval to 0 if the capture rate is not >0
// since the recorder does not get created every time the recording starts.
// The recorder infers whether the capture is timelapsed based on the value of
// this interval
boolean captureTimeLapse = mCaptureRate > 0;
if (captureTimeLapse) {
double timeBetweenFrameCapture = 1 / mCaptureRate;
recorder.setInputValue("timelapseRecordingIntervalUs",
(long) (1000000 * timeBetweenFrameCapture));
} else {
recorder.setInputValue("timelapseRecordingIntervalUs", 0L);
}
if (mInfoListener != null) {
recorder.setInputValue("infoListener", mInfoListener);
}
if (mErrorListener != null) {
recorder.setInputValue("errorListener", mErrorListener);
}
recorder.setInputValue("maxFileSize", mMaxFileSize);
recorder.setInputValue("maxDurationMs", mMaxDurationMs);
recorder.setInputValue("recording", true);
mCameraDevice.playSound(Camera.Sound.START_VIDEO_RECORDING);
mState = STATE_RECORD;
}
public synchronized void stopRecording() {
if (mLogVerbose) Log.v(TAG, "Stop recording (" + this + ")");
switch (mState) {
case STATE_CONFIGURE:
case STATE_STARTING_PREVIEW:
case STATE_PREVIEW:
Log.w(TAG, "StopRecording called when recording not active!");
return;
case STATE_RELEASED:
throw new RuntimeException("stopRecording called on released EffectsRecorder!");
default:
break;
}
Filter recorder = mRunner.getGraph().getFilter("recorder");
recorder.setInputValue("recording", false);
mCameraDevice.playSound(Camera.Sound.STOP_VIDEO_RECORDING);
mState = STATE_PREVIEW;
}
// Stop and release effect resources
public synchronized void stopPreview() {
if (mLogVerbose) Log.v(TAG, "Stopping preview (" + this + ")");
switch (mState) {
case STATE_CONFIGURE:
Log.w(TAG, "StopPreview called when preview not active!");
return;
case STATE_RELEASED:
throw new RuntimeException("stopPreview called on released EffectsRecorder!");
default:
break;
}
if (mState == STATE_RECORD) {
stopRecording();
}
mCurrentEffect = EFFECT_NONE;
mCameraDevice.stopPreview();
try {
mCameraDevice.setPreviewTexture(null);
} catch(IOException e) {
throw new RuntimeException("Unable to connect camera to effect input", e);
}
mState = STATE_CONFIGURE;
mOldRunner = mRunner;
mRunner.stop();
mRunner = null;
// Rest of stop and release handled in mRunnerDoneCallback
}
// Try to enable/disable video stabilization if supported; otherwise return false
boolean tryEnableVideoStabilization(boolean toggle) {
Camera.Parameters params = mCameraDevice.getParameters();
String vstabSupported = params.get("video-stabilization-supported");
if ("true".equals(vstabSupported)) {
if (mLogVerbose) Log.v(TAG, "Setting video stabilization to " + toggle);
params.set("video-stabilization", toggle ? "true" : "false");
mCameraDevice.setParameters(params);
return true;
}
if (mLogVerbose) Log.v(TAG, "Video stabilization not supported");
return false;
}
// Try to enable/disable 3A locks if supported; otherwise return false
boolean tryEnable3ALocks(boolean toggle) {
Camera.Parameters params = mCameraDevice.getParameters();
if (params.isAutoExposureLockSupported() &&
params.isAutoWhiteBalanceLockSupported() ) {
params.setAutoExposureLock(toggle);
params.setAutoWhiteBalanceLock(toggle);
mCameraDevice.setParameters(params);
return true;
}
return false;
}
// Try to enable/disable 3A locks if supported; otherwise, throw error
// Use this when locks are essential to success
void enable3ALocks(boolean toggle) {
Camera.Parameters params = mCameraDevice.getParameters();
if (!tryEnable3ALocks(toggle)) {
throw new RuntimeException("Attempt to lock 3A on camera with no locking support!");
}
}
private OnRunnerDoneListener mRunnerDoneCallback =
new OnRunnerDoneListener() {
public void onRunnerDone(int result) {
synchronized(EffectsRecorder.this) {
if (mLogVerbose) {
Log.v(TAG,
"Graph runner done (" + EffectsRecorder.this
+ ", mRunner " + mRunner
+ ", mOldRunner " + mOldRunner + ")");
}
if (result == GraphRunner.RESULT_ERROR) {
// Handle error case
Log.e(TAG, "Error running filter graph!");
Exception e = null;
if (mRunner != null) {
e = mRunner.getError();
} else if (mOldRunner != null) {
e = mOldRunner.getError();
}
raiseError(e);
}
if (mOldRunner != null) {
// Tear down old graph if available
if (mLogVerbose) Log.v(TAG, "Tearing down old graph.");
GLEnvironment glEnv = mGraphEnv.getContext().getGLEnvironment();
if (glEnv != null && !glEnv.isActive()) {
glEnv.activate();
}
mOldRunner.getGraph().tearDown(mGraphEnv.getContext());
if (glEnv != null && glEnv.isActive()) {
glEnv.deactivate();
}
mOldRunner = null;
}
if (mState == STATE_PREVIEW ||
mState == STATE_STARTING_PREVIEW) {
// Switching effects, start up the new runner
if (mLogVerbose) Log.v(TAG, "Previous effect halted, starting new effect.");
tryEnable3ALocks(false);
mRunner.run();
} else if (mState != STATE_RELEASED) {
// Shutting down effects
if (mLogVerbose) Log.v(TAG, "Runner halted, restoring direct preview");
tryEnable3ALocks(false);
sendMessage(EFFECT_NONE, EFFECT_MSG_EFFECTS_STOPPED);
} else {
// STATE_RELEASED - camera will be/has been released as well, do nothing.
}
}
}
};
// Indicates that all camera/recording activity needs to halt
public synchronized void release() {
if (mLogVerbose) Log.v(TAG, "Releasing (" + this + ")");
switch (mState) {
case STATE_RECORD:
case STATE_STARTING_PREVIEW:
case STATE_PREVIEW:
stopPreview();
// Fall-through
default:
mState = STATE_RELEASED;
break;
}
}
private void sendMessage(final int effect, final int msg) {
if (mEffectsListener != null) {
mHandler.post(new Runnable() {
public void run() {
mEffectsListener.onEffectsUpdate(effect, msg);
}
});
}
}
private void raiseError(final Exception exception) {
if (mEffectsListener != null) {
mHandler.post(new Runnable() {
public void run() {
if (mFd != null) {
mEffectsListener.onEffectsError(exception, null);
} else {
mEffectsListener.onEffectsError(exception, mOutputFile);
}
}
});
}
}
}
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