Esempio n. 1
0
void CCflycap_grab_next_frame_blocking_with_stride( CCflycap *ccntxt,
						    unsigned char *out_bytes,
						    intptr_t stride0,
						    float timeout ) {
  CHECK_CC(ccntxt);
  FlyCapture2::Camera *cam = (FlyCapture2::Camera *)ccntxt->inherited.cam;
  cam_iface_backend_extras* backend_extras = (cam_iface_backend_extras*)(ccntxt->inherited.backend_extras);
  // The main frame grabbing code goes here.

  FlyCapture2::Image rawImage;
  CIPGRCHK(cam->RetrieveBuffer( &rawImage ));

  if (stride0 < (intptr_t)rawImage.GetStride()) {
    CAM_IFACE_THROW_ERROR("stride too small for image");
  }

  if (stride0==(intptr_t)rawImage.GetStride()) {
    // same stride
    memcpy((void*)out_bytes, /*dest*/
	   (const void*)rawImage.GetData(),/*src*/
	   rawImage.GetDataSize());/*src*/

  } else {
    // different strides
    for (int row=0; row<(int)rawImage.GetRows(); row++) {
      memcpy((void*)(out_bytes+row*stride0), /*dest*/
	     (const void*)(rawImage.GetData() + row*rawImage.GetStride()),/*src*/
	     rawImage.GetStride());/*size*/
    }
  }
}
Esempio n. 2
0
CameraFrame CameraPointGrey::getFrame(){

    FlyCapture2::Error error;

    if(triggerMode == triggerModeSoftware){
        // Fire software trigger
        // broadcasting not supported on some platforms
        cam.FireSoftwareTrigger(false);
    }

    // Retrieve the image
    FlyCapture2::Image rawImage;
    error = cam.RetrieveBuffer(&rawImage);
    if (error != FlyCapture2::PGRERROR_OK)
        PrintError(error);

    CameraFrame frame;

    frame.timeStamp = rawImage.GetTimeStamp().cycleCount;
    frame.height = rawImage.GetRows();
    frame.width = rawImage.GetCols();
    frame.memory = rawImage.GetData();

    return frame;
}
/*!
  Acquire a color image from the active camera.

  \param I : Image data structure (RGBa image).

  \param timestamp : The acquisition timestamp.
*/
void vpFlyCaptureGrabber::acquire(vpImage<vpRGBa> &I, FlyCapture2::TimeStamp &timestamp)
{
  this->open();

  FlyCapture2::Error error;
  // Retrieve an image
  error = m_camera.RetrieveBuffer( &m_rawImage );
  if (error != FlyCapture2::PGRERROR_OK) {
    error.PrintErrorTrace();
    throw (vpException(vpException::fatalError,
                       "Cannot retrieve image for camera with guid 0x%lx",
                       m_guid) );
  }
  timestamp = m_rawImage.GetTimeStamp();

  // Create a converted image
  FlyCapture2::Image convertedImage;

  // Convert the raw image
  error = m_rawImage.Convert( FlyCapture2::PIXEL_FORMAT_RGBU, &convertedImage );
  if (error != FlyCapture2::PGRERROR_OK) {
    error.PrintErrorTrace();
    throw (vpException(vpException::fatalError,
                       "Cannot convert image for camera with guid 0x%lx",
                       m_guid) );
  }
  height = convertedImage.GetRows();
  width = convertedImage.GetCols();
  unsigned char *data = convertedImage.GetData();
  I.resize(height, width);
  unsigned int bps = convertedImage.GetBitsPerPixel();
  memcpy(I.bitmap, data, width*height*bps/8);
}
Esempio n. 4
0
void CCflycap_CCflycap( CCflycap * ccntxt, int device_number, int NumImageBuffers,
                        int mode_number) {

  // call parent
  CamContext_CamContext((CamContext*)ccntxt,device_number,NumImageBuffers,mode_number); // XXX cast error?
  ccntxt->inherited.vmt = (CamContext_functable*)&CCflycap_vmt;

  CAM_IFACE_CHECK_DEVICE_NUMBER(device_number);
  std::vector<CamMode> result;
  int myerr = get_mode_list(device_number, result);

  ccntxt->inherited.device_number = device_number;
  ccntxt->inherited.backend_extras = new cam_iface_backend_extras;
  memset(ccntxt->inherited.backend_extras,0,sizeof(cam_iface_backend_extras));

  FlyCapture2::Camera *cam = new FlyCapture2::Camera;
  FlyCapture2::PGRGuid guid;
  CIPGRCHK( BACKEND_GLOBAL(busMgr_ptr)->GetCameraFromIndex(device_number, &guid));
  CIPGRCHK(cam->Connect(&guid));

  FlyCapture2::FC2Config cfg;
  CIPGRCHK(cam->GetConfiguration(&cfg));
  cfg.numBuffers = NumImageBuffers;
  CIPGRCHK(cam->SetConfiguration(&cfg));

  // Set the settings to the camera
  CamMode target_mode = result[mode_number];

  if (target_mode.videomode == FlyCapture2::VIDEOMODE_FORMAT7) {
    CIPGRCHK(cam->SetFormat7Configuration(&target_mode.fmt7ImageSettings,
					  target_mode.fmt7PacketInfo.recommendedBytesPerPacket ));
  } else {
    CIPGRCHK(cam->SetVideoModeAndFrameRate(target_mode.videomode, target_mode.framerate));
  }

  ccntxt->inherited.cam = (void*)cam;

  // XXX move this to start camera and query camera for settings

  CIPGRCHK(cam->StartCapture());


  // Retrieve an image to get width, height. XXX change to query later.
  FlyCapture2::Image rawImage;
  CIPGRCHK( cam->RetrieveBuffer( &rawImage ));

  cam_iface_backend_extras *extras = (cam_iface_backend_extras *)ccntxt->inherited.backend_extras;

  ccntxt->inherited.depth = rawImage.GetBitsPerPixel();
  extras->buf_size = rawImage.GetDataSize();
  extras->current_height = rawImage.GetRows();
  extras->current_width = rawImage.GetCols();
  extras->max_height = rawImage.GetRows();
  extras->max_width = rawImage.GetCols();
  CIPGRCHK( cam->GetTriggerModeInfo( &extras->trigger_mode_info ));

  switch (rawImage.GetPixelFormat()) {
  case FlyCapture2::PIXEL_FORMAT_MONO8:
    ccntxt->inherited.coding = CAM_IFACE_MONO8;
    if (rawImage.GetBayerTileFormat()!=FlyCapture2::NONE) {
      NOT_IMPLEMENTED;
    }
    break;
  case FlyCapture2::PIXEL_FORMAT_RAW8:
    switch (rawImage.GetBayerTileFormat()) {
    case FlyCapture2::NONE:
      ccntxt->inherited.coding = CAM_IFACE_RAW8;
      break;
    case FlyCapture2::RGGB:
      ccntxt->inherited.coding = CAM_IFACE_MONO8_BAYER_RGGB;
      break;
    case FlyCapture2::GRBG:
      ccntxt->inherited.coding = CAM_IFACE_MONO8_BAYER_GRBG;
      break;
    case FlyCapture2::GBRG:
      ccntxt->inherited.coding = CAM_IFACE_MONO8_BAYER_GBRG;
      break;
    case FlyCapture2::BGGR:
      ccntxt->inherited.coding = CAM_IFACE_MONO8_BAYER_BGGR;
      break;
    default:
      NOT_IMPLEMENTED;
    }
  }
  CIPGRCHK(cam->StopCapture());

}
Esempio n. 5
0
File: Cam.cpp Progetto: CVfAR/ATAM
/*!
@brief		open camera
@param[out]	w	image width
@param[out]	h	image height
@param[out]	c	num of channels
@retval		successed or not
*/
bool CCam::Open(
	int &w,
	int &h,
	int &c
	)
{
#ifdef USEPGR
	if (!mPGRCap.IsConnected()){

		FlyCapture2::Error error;

		// connect to a camera
		error = mPGRCap.Connect(0);
		if (error != FlyCapture2::PGRERROR_OK){
			return false;
		}

		FlyCapture2::CameraInfo camInfo;
		error = mPGRCap.GetCameraInfo(&camInfo);
		if (error != FlyCapture2::PGRERROR_OK) {
			return false;
		}

		// start capturing
		error = mPGRCap.StartCapture();
		if (error != FlyCapture2::PGRERROR_OK){
			return false;
		}

		// get image
		FlyCapture2::Image raw;
		error = mPGRCap.RetrieveBuffer(&raw);
		if (error != FlyCapture2::PGRERROR_OK){
			return false;
		}

		// VGA
		w = mWidth = raw.GetCols() / 2;		// image width
		h= mHeight = raw.GetRows() / 2;		// image height
		c= mChannel = 3;		// color camera

		mSize = mWidth*mHeight*mChannel;

		mImg = cv::Mat(cv::Size(mWidth, mHeight), CV_8UC3);

		return true;
	}
	else{
		return false;
	}
#else
	if (!mCap.isOpened()){

		if (!mCap.open(mDeviceID)){		// if opening failed
			printf("Cam ID %d not found\n", mDeviceID);
			return false;
		}

		// VGA
		mCap.set(cv::CAP_PROP_FRAME_WIDTH, 640);
		mCap.set(cv::CAP_PROP_FRAME_HEIGHT, 480);
	
		// check image
		int count = 0;
		while (mImg.data == NULL){

			mCap >> mImg;
			++count;

			if (count > 10){		// if retrieval failed
				printf("Cannot retrieve images\n");
				return false;
			}
		}

		mWidth = w = mImg.cols;
		mHeight = h = mImg.rows;
		mChannel = c = mImg.channels();

		mSize = mHeight*(int)mImg.step;

		return true;
	}
	else{
		return false;
Esempio n. 6
0
void VideoSaverFlyCapture::captureThread()
{
  if (!isFlyCapture()) {
    VideoSaver::captureThread();
  } else {

  
    m_GrabbingFinished = false;
    m_KeepThreadAlive = true;
    m_frameNumber = 0;
    m_newFrameAvailable = false;
    FlyCapture2::Image rgbImage;
    FlyCapture2::Image rawImage;
    FlyCapture2::Image rawImage2;

    m_timer= std::clock();
  
    while (m_KeepThreadAlive) 
    {

      FlyCapture2::Error error = m_Camera.RetrieveBuffer( &rawImage );
      if ( error != FlyCapture2::PGRERROR_OK )
      {
	error.PrintErrorTrace();
      }
      
      //get the time stamp
      const double localtimestamp = M_TIMER_ELAPSED;

      // convert to bgr
      rawImage2.DeepCopy(&rawImage); // not sure if really needed since we convert below...
      rawImage2.Convert(FlyCapture2::PIXEL_FORMAT_RGB, &rgbImage );

      // convert to Mat
      unsigned int rowBytes = (double) rgbImage.GetReceivedDataSize()/(double)rgbImage.GetRows();       

      // copy to frame variable and update times
      { std::unique_lock<std::mutex> lock(VideoSaver::m_FrameMutex); 

	m_Frame.release();
	m_Frame = cv::Mat(rgbImage.GetRows(), rgbImage.GetCols(), CV_8UC3, rgbImage.GetData(),rowBytes);
	// could this happen ?
	if (m_Frame.size().width==0) 
	  m_Frame = cv::Mat::zeros(m_FrameSize,CV_8UC3);

	m_TimeStamp =  localtimestamp;
	m_frameNumber++;
	m_newFrameAvailable = true;
	VideoSaver::m_newFrameAvailableCond.notify_one();
      }


    } 
    rawImage.ReleaseBuffer();
    rawImage2.ReleaseBuffer();
    rgbImage.ReleaseBuffer();

    m_newFrameAvailableCond.notify_one();
    std::cout << "Finished grabbing." << std::endl;    
    m_GrabbingFinished  = true;

  }
}