status_t
JordanCameraWrapper::setParameters(const CameraParameters& params)
{
    CameraParameters pars(params.flatten());
    int width, height;
    char buf[10];
    bool isWide;

    /*
     * getInt returns -1 if the value isn't present and 0 on parse failure,
     * so if it's larger than 0, we can be sure the value was parsed properly
     */
    mVideoMode = pars.getInt("cam-mode") > 0;
    pars.remove("cam-mode");

    pars.getPreviewSize(&width, &height);
    isWide = width == 848 && height == 480;

    if (isWide && !mVideoMode) {
        pars.setPreviewFrameRate(24);
    }
    if (mCameraType == CAM_BAYER && mVideoMode) {
        pars.setPreviewFrameRate(24);
    }

    if (mCameraType == CAM_SOC) {
        /*
         * libsoccamera fails to turn flash on if 16:9 recording is enabled (no matter
         * whether it's photo or video recording), thus we do it ourselves in that case.
         * Luckily libsoccamera handles the automatic flash properly also in the 16:9 case.
         */
        const char *flashMode = pars.get(CameraParameters::KEY_FLASH_MODE);
        if (flashMode != NULL) {
            if (isWide && mLastFlashMode != flashMode) {
                bool shouldBeOn = strcmp(flashMode, CameraParameters::FLASH_MODE_TORCH) == 0 ||
                                  strcmp(flashMode, CameraParameters::FLASH_MODE_ON) == 0;
                setSocTorchMode(shouldBeOn);
            }
            mLastFlashMode = flashMode;
        }
    }

    float exposure = pars.getFloat(CameraParameters::KEY_EXPOSURE_COMPENSATION);
    /* exposure-compensation comes multiplied in the -9...9 range, while
       we need it in the -3...3 range -> adjust for that */
    exposure /= 3;

    /* format the setting in a way the lib understands */
    bool even = (exposure - round(exposure)) < 0.05;
    snprintf(buf, sizeof(buf), even ? "%.0f" : "%.2f", exposure);
    pars.set("mot-exposure-offset", buf);

    /* kill off the original setting */
    pars.set(CameraParameters::KEY_EXPOSURE_COMPENSATION, "0");

    return mMotoInterface->setParameters(pars);
}
示例#2
0
int
GonkCameraHardware::PushParameters(const CameraParameters& aParams)
{
  if (NS_WARN_IF(mClosing)) {
    return DEAD_OBJECT;
  }
  String8 s = aParams.flatten();
  return mCamera->setParameters(s);
}
/** Return the camera parameters. */
char *HAL_camera_device_get_parameters(struct camera_device *dev)
{
    ExynosCameraAutoTimer autoTimer(__func__);

    ALOGV("DEBUG(%s):", __func__);
    String8 str;
    CameraParameters parms = obj(dev)->getParameters();
    str = parms.flatten();
    return strdup(str.string());
}
int
TestGonkCameraHardware::PushParameters(const CameraParameters& aParams)
{
  DOM_CAMERA_LOGT("%s:%d\n", __func__, __LINE__);
  String8 s = aParams.flatten();
  nsresult rv = WaitWhileRunningOnMainThread(new PushParametersDelegate(this, &s));
  if (NS_WARN_IF(NS_FAILED(rv))) {
    return UNKNOWN_ERROR;
  }
  return OK;
}
示例#5
0
/**
 * Set a camera parameter
 */
int CaptureCommand::capture_setParameter(Value& name, Value& value) {
  LOG_ERROR((name.isNull()), "name not specified");
  LOG_ERROR((value.isNull()), "value not specified");
  LOG_ERROR((mCamera.get() == NULL), "camera not initialized");

  CameraParameters params = mCamera->getParameters();
  params.set(name.asCString(), value.asCString());
  status_t err = mCamera->setParameters(params.flatten());
  if (err != ::OK) {
    ALOGW("Error %d: Failed to set '%s' to '%s'", err,
      name.asCString(), value.asCString());
  }
  return 0;
}
status_t
LibCameraWrapper::setParameters(const CameraParameters& params)
{
    CameraParameters pars(params.flatten());

    const char *flashMode = pars.get(CameraParameters::KEY_FLASH_MODE);
        if (flashMode != NULL) {
            if (mLastFlashMode != flashMode) {
                bool shouldBeOn = strcmp(flashMode, CameraParameters::FLASH_MODE_TORCH) == 0 ||
                                  strcmp(flashMode, CameraParameters::FLASH_MODE_ON) == 0;
                setSocTorchMode(shouldBeOn);
            }
            mLastFlashMode = flashMode;
    }

    return mLibInterface->setParameters(pars);
}
示例#7
0
status_t
ParamsManager::
setParameters(CameraParameters const& params)
{
    IParamsManager::showParameters(params.flatten());
    //
    status_t    status = OK;
    bool        bIsSceneChanged = false;
    Size        oldPrvSize, tmpPrvSize, newPrvSize;
    Size        oldPicSize, newPicSize;
    //
    //  (1) Check to see if new parameters are valid or not.
    if  ( OK != (status = checkParams(params)) )
    {
        MY_LOGE("checkParams() return %d", status);
        return  status;
    }

    //  (2) Check to see if Scene Changes or not.
    MY_LOGD("%d: +", getOpenId());
    RWLock::AutoWLock _lock(mRWLock);
    MY_LOGD("AutoWLock");
    //
    char const*const pOldScene = mParameters.get(CameraParameters::KEY_SCENE_MODE);
    char const*const pNewScene =      params.get(CameraParameters::KEY_SCENE_MODE);
    if  ( 0 != ::strcmp(pOldScene, pNewScene) )
    {
        //  scene mode has changed
        MY_LOGD("Scene change: %s -> %s", pOldScene, pNewScene);
        bIsSceneChanged = true;
    }
    //
    //  (3.1) Check to see if Preview Size Changes or not. Get old preview size
    mParameters.getPreviewSize(&oldPrvSize.width, &oldPrvSize.height);
    params.getPreviewSize(&tmpPrvSize.width, &tmpPrvSize.height);

    //  (3.2) Get old&new picture size  
    mParameters.getPictureSize(&oldPicSize.width, &oldPicSize.height);
    params.getPictureSize(&newPicSize.width, &newPicSize.height);

    //  (4) Update Parameter
    mParameters = params;
    if  ( bIsSceneChanged ) {
        if  ( ! updateSceneAndParams() ) {
            status = BAD_VALUE;
        }
    }

    //  (5) Update Parameter: preview size
    updatePreviewSize();

    // (6) Update FOV according to picture size
    MY_LOGI("picSZ(%d,%d)->(%d,%d)",oldPicSize.width,oldPicSize.height,newPicSize.width,newPicSize.height);
    if(oldPicSize.width != newPicSize.width || oldPicSize.height != newPicSize.height)
    {
        updateFov(newPicSize);
    }      
    
    //  (3.2) Check to see if Preview Size Changes or not. Get new preview size
    mParameters.getPreviewSize(&newPrvSize.width, &newPrvSize.height);
    if  ( oldPrvSize.width != newPrvSize.width || oldPrvSize.height != newPrvSize.height )
    {
        MY_LOGD(
            "Preview Size change: %dx%d/%dx%d -> (%dx%d)",
            oldPrvSize.width, oldPrvSize.height,
            tmpPrvSize.width, tmpPrvSize.height,
            newPrvSize.width, newPrvSize.height
        );
    }
    //
    MY_LOGD("-");
    return status;
}
示例#8
0
int
GonkCameraHardware::PushParameters(const CameraParameters& aParams)
{
  String8 s = aParams.flatten();
  return mCamera->setParameters(s);
}
status_t MotoCameraWrapper::setParameters(const CameraParameters& params)
{
    CameraParameters pars(params.flatten());
    String8 oldFlashMode = mFlashMode;
    String8 sceneMode;
    status_t retval;
    int width, height;
    char buf[10];
    bool isWide;

    /*
     * getInt returns -1 if the value isn't present and 0 on parse failure,
     * so if it's larger than 0, we can be sure the value was parsed properly
     */
    mVideoMode = pars.getInt("cam-mode") > 0;
    pars.remove("cam-mode");

    pars.getPreviewSize(&width, &height);
    isWide = width == 848 && height == 480;

    if (isWide && !mVideoMode)
        pars.setPreviewFrameRate(24);

    if (mCameraType == DEFY_RED && mVideoMode)
        pars.setPreviewFrameRate(24);

    sceneMode = pars.get(CameraParameters::KEY_SCENE_MODE);
    if (sceneMode != CameraParameters::SCENE_MODE_AUTO) {
        /* The lib doesn't seem to update the flash mode correctly when a scene
         * mode is set, so we need to do it here. Also do focus mode, just do
         * be on the safe side.
         */
        pars.set(CameraParameters::KEY_FOCUS_MODE, CameraParameters::FOCUS_MODE_AUTO);

        if (sceneMode == CameraParameters::SCENE_MODE_PORTRAIT ||
            sceneMode == CameraParameters::SCENE_MODE_NIGHT_PORTRAIT)
        {
            pars.set(CameraParameters::KEY_FLASH_MODE, CameraParameters::FLASH_MODE_AUTO);
        } else {
            pars.set(CameraParameters::KEY_FLASH_MODE, CameraParameters::FLASH_MODE_OFF);
        }
    }

    mFlashMode = pars.get(CameraParameters::KEY_FLASH_MODE);
    float exposure = pars.getFloat(CameraParameters::KEY_EXPOSURE_COMPENSATION);
    /* Exposure-compensation comes multiplied in the -9...9 range, while
     * we need it in the -3...3 range -> adjust for that
     */
    exposure /= 3;

    /* format the setting in a way the lib understands */
    bool even = (exposure - round(exposure)) < 0.05;
    snprintf(buf, sizeof(buf), even ? "%.0f" : "%.2f", exposure);
    pars.set("mot-exposure-offset", buf);

    /* kill off the original setting */
    pars.set(CameraParameters::KEY_EXPOSURE_COMPENSATION, "0");

    retval = mMotoInterface->setParameters(pars);

    if (oldFlashMode != mFlashMode) {
        toggleTorchIfNeeded();
    }

    return retval;
}
示例#10
0
/**
 * Thread function that initializes the camera
 */
status_t CaptureCommand::initThreadCamera() {
  // Setup the camera
  int cameraId = 0;
  mCamera = Camera::connect(cameraId, String16(CAMERA_NAME),
      Camera::USE_CALLING_UID);
  if (mCamera == NULL) {
    ALOGE("Unable to connect to camera");
    return -1;
  }
  mRemote = mCamera->remote();

  FaceDetection faces(&mChannel);
  mCamera->setListener(&faces);

  {
    char previewSize[80];
    snprintf(previewSize, sizeof(previewSize), "%dx%d", sVideoSize.width, sVideoSize.height);
    CameraParameters params = mCamera->getParameters();
    params.set(CameraParameters::KEY_PREVIEW_SIZE, previewSize);
    params.set(CameraParameters::KEY_PREVIEW_FORMAT, "yuv420sp");
    status_t err = mCamera->setParameters(params.flatten());
    CHECK(err == 0);
    params = mCamera->getParameters();
    params.dump();
  }

  sOpenCVCameraCapture->setPreviewProducerListener(this);
  CHECK(setPreviewTarget() == 0);

  //CHECK(mCamera->sendCommand(CAMERA_CMD_START_FACE_DETECTION, CAMERA_FACE_DETECTION_SW, 0) == 0);
  CHECK(mCamera->sendCommand(CAMERA_CMD_ENABLE_FOCUS_MOVE_MSG, 1, 0) == 0);

  mCameraSource = CameraSource::CreateFromCamera(mRemote, mCamera->getRecordingProxy(), cameraId,
      String16(CAMERA_NAME, strlen(CAMERA_NAME)), Camera::USE_CALLING_UID,
      sVideoSize, sFPS,
      NULL, sUseMetaDataMode);
  CHECK_EQ(mCameraSource->initCheck(), ::OK);

  if (sInitCameraVideo) {
    mLooper = new ALooper;
    mLooper->setName("capture-looper");
    mLooper->start();

    sp<MediaSource> videoEncoder = prepareVideoEncoder(mLooper, mCameraSource);

    sp<MediaSource> audioSource(
      new AudioSource(
        AUDIO_SOURCE_MIC,
#ifdef TARGET_GE_MARSHMALLOW
        String16("silk-capture"),
#endif
        sAudioSampleRate,
        sAudioChannels
      )
    );
    sp<MediaSource> audioSourceEmitter =
      new AudioSourceEmitter(&mChannel, audioSource);
    sp<MediaSource> audioMutter =
      new AudioMutter(audioSourceEmitter);
    sp<MediaSource> audioEncoder =
      prepareAudioEncoder(mLooper, audioMutter);

    mSegmenter = new MPEG4SegmenterDASH(videoEncoder, audioEncoder, &mChannel);
    mSegmenter->run();

    mHardwareActive = true;
    notifyCameraEvent("initialized");

    // Block this thread while camera is running
    mSegmenter->join();
  } else {
    pthread_create(&mAudioThread, NULL, initThreadAudioOnlyWrapper, this);

    CHECK_EQ(mCameraSource->start(), ::OK);
    MediaSourceNullPuller cameraPuller(mCameraSource, "camera");
    if (!cameraPuller.loop()) {
      notifyCameraEvent("error");
    }
  }

  sOpenCVCameraCapture->setPreviewProducerListener(NULL);
  return 0;
}
示例#11
0
/*! 
 \return 0 on success, otherwise error code
*/
int camera_open(void)
{
	LOGE("%s",__FUNCTION__);

	CameraParameters	params;
	status_t		rtn;

	/* Open video device */
	#ifdef CAMERA_FOR_SCANNER
	//pCamera = CameraScanner::connect(0);
	

	
#ifdef CAMERA_FOR_SCANNER
	fd = open("/sys/devices/platform/image_sensor/currDrvIndex",O_RDWR);
    if(fd<0)
	{
		LOGE("Cannot open currDrvIndex\n");
		return -1;
	}
	int temp = 20002;
	write(fd,"20002",5);

	fd_scanner1 = open(SE955_CHANNEL_NAME, O_RDONLY);
 
#endif
	pCamera = Camera::connect(1);
	#else
	pCamera = CameraScanner::connect(ANDROID_CAMERA_ID);
	//pCamera = CameraScanner::connect(0);
	#endif
	if( pCamera == 0)
	{
		LOGE("Cannot connect to camera %d of: %i, %s\n", ANDROID_CAMERA_ID, errno, strerror(errno));
		return -errno;
	}

	LOGE("Camera %d \n", ANDROID_CAMERA_ID);
#ifdef CAMERA_FOR_SCANNER
pCamera->setListener(&scannerListener);	//enable data callback

#else

	pCamera->setScannerListener(&scannerListener);	//enable data callback
#endif

#ifdef VIDEO_SUBDEV 
	/* Open subdevice */
	video_subdev_handle = ::open(VIDEO_SUBDEV, O_RDWR);
	if (video_subdev_handle == -1) {
		LOGE("ERROR opening %s: %d\n", VIDEO_SUBDEV, errno);
		return -errno;
	}

	LOGE("Subdevice: %s, handle = %d\n", VIDEO_SUBDEV, video_subdev_handle);
#endif

	ImagerProps.width = 256; ImagerProps.height = 64;
#ifdef CAMERA_FOR_SCANNER
			//ImagerProps.width = 624;
			//ImagerProps.height = 474;
			ImagerProps.width = 640;
			ImagerProps.height = 480;
			ImagerProps.mount = 2;
			ImagerProps.i2c_addr_sensor = 0x48;
			ImagerProps.i2c_addr_psoc = 0x40;
			ImagerProps.i2c_addr_clock = 0x69;
#else

	if( 0 != camera_ioctl(HSM_GET_PROPERTIES, &ImagerProps) )
	{
		pCamera->disconnect();
		LOGE("HSM_GET_PROPERTIES error %d\n", errno);
		return -1;
	}
#endif

#ifdef CAMERA_FOR_SCANNER
#else

	LOGE("Image size = %dx%d\n", ImagerProps.width, ImagerProps.height);
#endif

	cbBufLength = ImagerProps.height * ImagerProps.width;

	params.unflatten(pCamera->getParameters());
	params.set("mtk-cam-mode", 1);
#if 0 //def CAMERA_FOR_SCANNER
#else
	params.set("scanner-mode", "on");
#endif
	params.setPreviewSize(ImagerProps.width, ImagerProps.height);
	//params.setPreviewFormat("yuv422i-yuyv"); // FIXME: "raw"
	//params.setPreviewFormat("yuv420sp"); // FIXME: "raw" 
	rtn = pCamera->setParameters(params.flatten());
	if( rtn != OK )
	{
		LOGE("setParameters error %d\n", rtn);
	}
#ifdef CAMERA_FOR_SCANNER


	if(fd>=0)write(fd,"20001",5);
#endif

#if 0
	rtn = pCamera->setPreviewTexture(dummy_texture); // FIXME: Is there a dummy texture?
	if( rtn != OK )
	{
		KIL_ERR("setPreviewDisplay error %d\n", rtn);
	}
#endif

	return 0;
}
示例#12
0
void CameraHandler::setProperty(int propIdx, double value)
{
    LOGD("CameraHandler::setProperty(%d, %f)", propIdx, value);

    android::String8 params_str;
    params_str = camera->getParameters();
    LOGI("Params before set: [%s]", params_str.string());

    switch (propIdx)
    {
    case ANDROID_CAMERA_PROPERTY_FRAMEWIDTH:
    {
        int w,h;
        params->getPreviewSize(&w, &h);
        width = (int)value;
    }
    break;
    case ANDROID_CAMERA_PROPERTY_FRAMEHEIGHT:
    {
        int w,h;
        params->getPreviewSize(&w, &h);
        height = (int)value;
    }
    break;
    case ANDROID_CAMERA_PROPERTY_EXPOSURE:
    {
        int max_exposure = params->getInt("max-exposure-compensation");
        int min_exposure = params->getInt("min-exposure-compensation");
        if(max_exposure && min_exposure)
        {
            int exposure = (int)value;
            if(exposure >= min_exposure && exposure <= max_exposure)
                params->set("exposure-compensation", exposure);
            else
                LOGE("Exposure compensation not in valid range (%i,%i).", min_exposure, max_exposure);
        } else
            LOGE("Exposure compensation adjust is not supported.");

        camera->setParameters(params->flatten());
    }
    break;
    case ANDROID_CAMERA_PROPERTY_FLASH_MODE:
    {
        int new_val = (int)value;
        if(new_val >= 0 && new_val < ANDROID_CAMERA_FLASH_MODES_NUM)
        {
            const char* mode_name = flashModesNames[new_val];
            if(is_supported(CameraParameters::KEY_SUPPORTED_FLASH_MODES, mode_name))
                params->set(CameraParameters::KEY_FLASH_MODE, mode_name);
            else
                LOGE("Flash mode %s is not supported.", mode_name);
        }
        else
            LOGE("Flash mode value not in valid range.");

        camera->setParameters(params->flatten());
    }
    break;
    case ANDROID_CAMERA_PROPERTY_FOCUS_MODE:
    {
        int new_val = (int)value;
        if(new_val >= 0 && new_val < ANDROID_CAMERA_FOCUS_MODES_NUM)
        {
            const char* mode_name = focusModesNames[new_val];
            if(is_supported(CameraParameters::KEY_SUPPORTED_FOCUS_MODES, mode_name))
                params->set(CameraParameters::KEY_FOCUS_MODE, mode_name);
            else
                LOGE("Focus mode %s is not supported.", mode_name);
        }
        else
            LOGE("Focus mode value not in valid range.");

        camera->setParameters(params->flatten());
    }
    break;
    case ANDROID_CAMERA_PROPERTY_WHITE_BALANCE:
    {
        int new_val = (int)value;
        if(new_val >= 0 && new_val < ANDROID_CAMERA_WHITE_BALANCE_MODES_NUM)
        {
            const char* mode_name = whiteBalanceModesNames[new_val];
            if(is_supported(CameraParameters::KEY_SUPPORTED_WHITE_BALANCE, mode_name))
                params->set(CameraParameters::KEY_WHITE_BALANCE, mode_name);
            else
                LOGE("White balance mode %s is not supported.", mode_name);
        }
        else
            LOGE("White balance mode value not in valid range.");

        camera->setParameters(params->flatten());
    }
    break;
    case ANDROID_CAMERA_PROPERTY_ANTIBANDING:
    {
        int new_val = (int)value;
        if(new_val >= 0 && new_val < ANDROID_CAMERA_ANTIBANDING_MODES_NUM)
        {
            const char* mode_name = antibandingModesNames[new_val];
            if(is_supported(CameraParameters::KEY_SUPPORTED_ANTIBANDING, mode_name))
                params->set(CameraParameters::KEY_ANTIBANDING, mode_name);
            else
                LOGE("Antibanding mode %s is not supported.", mode_name);
        }
        else
            LOGE("Antibanding mode value not in valid range.");

        camera->setParameters(params->flatten());
    }
    break;
#if !defined(ANDROID_r2_2_0) && !defined(ANDROID_r2_3_3) && !defined(ANDROID_r3_0_1)
    case ANDROID_CAMERA_PROPERTY_EXPOSE_LOCK:
    {
        if (is_supported(CameraParameters::KEY_AUTO_EXPOSURE_LOCK_SUPPORTED, "true"))
        {
            if (value != 0)
                params->set(CameraParameters::KEY_AUTO_EXPOSURE_LOCK, CameraParameters::TRUE);
            else
                params->set(CameraParameters::KEY_AUTO_EXPOSURE_LOCK, CameraParameters::FALSE);
            LOGE("Expose lock is set");
        }
        else
            LOGE("Expose lock is not supported");

        camera->setParameters(params->flatten());
    }
    break;
    case ANDROID_CAMERA_PROPERTY_WHITEBALANCE_LOCK:
    {
        if (is_supported(CameraParameters::KEY_AUTO_WHITEBALANCE_LOCK_SUPPORTED, "true"))
        {
            if (value != 0)
                params->set(CameraParameters::KEY_AUTO_WHITEBALANCE_LOCK, CameraParameters::TRUE);
            else
                params->set(CameraParameters::KEY_AUTO_WHITEBALANCE_LOCK, CameraParameters::FALSE);
            LOGE("White balance lock is set");
        }
        else
            LOGE("White balance lock is not supported");

        camera->setParameters(params->flatten());
    }
    break;
#endif
    default:
        LOGW("CameraHandler::setProperty - Unsupported property.");
    };

    params_str = camera->getParameters();
    LOGI("Params after set: [%s]", params_str.string());
}
示例#13
0
void mergepara( camera_device_t  *pdev, String8 &argstr)
{
	char * tmp = pdev->ops->get_parameters(pdev);
	CameraParameters def = CameraParameters(String8(tmp));
	char *a;
	char *b;

	pdev->ops->put_parameters(pdev,tmp);
#if   PRINTF_CONFIG
		CMR_LOGI("old config  =>\n");
	   a= const_cast < char *> ( def.flatten().string());
	    for (;;) {
	        b = strchr(a, ';');
	        if (b == 0) {
	            // If there's no semicolon, this is the last item.
	            String8 v(a);
				CMR_LOGI("%s",v.string());
	            break;
	        }
             else
             {
		        String8 v(a, (size_t)(b-a));
				CMR_LOGI("%s",v.string());
		         a = b+1;
             }
	   }
		CMR_LOGI("old config  end\n");
#endif

	   //a =const_cast < char *>  (add.flatten().string());
	   a =  (char *) argstr.string();
             CMR_LOGI("new str:  %s\n",a);

	    for (;;) {
	        // Find the bounds of the key name.
	        b = strchr(a, '=');
	        if (b == 0)
	            break;

	        // Create the key string.
	        String8 k(a, (size_t)(b-a));

	        // Find the value.
	        a = b+1;
	        b = strchr(a, ',');
	        if (b == 0) {
	            // If there's no semicolon, this is the last item.
		//		String8 v(a, strlen(a));
				CMR_LOGI("k=%s,v=%s",k.string(), a);
				def.set( k.string(), a);
	            break;
	        }
             else
             {
		        String8 v(a, (size_t)(b-a));
				CMR_LOGI("k=%s,v=%s",k.string(), v.string());
				def.set( k.string(),  v.string());
		         a = b+1;
             }
	   }

#if   PRINTF_CONFIG
	   CMR_LOGI("new config =>\n");
	   a=const_cast < char *>   ( def.flatten().string());
		for (;;) {
			b = strchr(a, ';');
			if (b == 0) {
				// If there's no semicolon, this is the last item.
				String8 v(a);
				CMR_LOGI("%s",v.string());
				break;
			}
			 else
			 {
			String8 v(a, (size_t)(b-a));
			CMR_LOGI("%s",v.string());
			 a = b+1;
			 }
	   }
	CMR_LOGI("new config  end\n");
#endif
	pdev->ops->set_parameters(pdev,def.flatten().string());

	if(opts.workmode == WK_TAKEPIC) {
		opts.pic_cnt = def.getInt("capture-mode");
		CMR_LOGW("WK_TAKEPIC:opts.pic_cnt = %d\n",opts.pic_cnt);
	}
}