Beispiel #1
0
bool UvcDriver::Capture( hal::CameraMsg& vImages )
{
    vImages.Clear();

    uvc_frame_t* frame = NULL;
    uvc_error_t err = uvc_get_frame(devh_, &frame, 0);
    if(err!= UVC_SUCCESS) {
        uvc_perror(err, "uvc_get_frame");
    }else{
        if(frame) {
            hal::ImageMsg* pimg = vImages.add_image();
            pimg->set_type( (hal::Type) pbtype );
            pimg->set_format( (hal::Format) pbformat );            
            pimg->set_width(frame->width);
            pimg->set_height(frame->height);
            pimg->set_data(frame->data, width_ * height_);
            return true;
        }else{
            std::cout << "No data..." << std::endl;
        }
        
    }
                     
    return true;
}
Beispiel #2
0
bool ProtoReaderDriver::ReadNextCameraMessage(hal::CameraMsg& msg) {
  msg.Clear();
  std::unique_ptr<hal::CameraMsg> readmsg = m_reader.ReadCameraMsg(m_camId);
  if(readmsg) {
    msg.Swap(readmsg.get());
    return true;
  }else{
    return false;
  }
}
Beispiel #3
0
bool JoinCameraDriver::Capture( hal::CameraMsg& vImages )
{
  vImages.Clear();
  const double time = Tic();
  vImages.set_system_time(time);
  vImages.set_device_time(time);
  unsigned activeWorkerCount = 0;

  std::vector<hal::CameraMsg>& results = m_WorkTeam.process();

  int ixResult = 0;
  for( hal::CameraMsg& result : results ) {
    if(m_WorkTeam.m_bWorkerCaptureNotOver[ixResult]){
      for( int i = 0; i < result.image_size(); i++ ) {
	vImages.add_image()->Swap(result.mutable_image(i));
      }
      result.Clear();
    }
    ixResult++;
    activeWorkerCount++;
  }
  
  return activeWorkerCount == results.size();
}
Beispiel #4
0
bool Freenect2Driver::Capture(hal::CameraMsg& vImages) {
	vImages.Clear();
	vImages.set_device_time(Tic());

	libfreenect2::FrameMap frames;
	libfreenect2::FrameMap::const_iterator fit;

	for (size_t i = 0; i < m_devices.size(); ++i) {
		m_devices[i].listener->waitForNewFrame(frames);
		const double time = Tic();
		bool save_rgb = false;

		if ((fit = frames.find(libfreenect2::Frame::Color)) != frames.end()) {
			hal::ImageMsg* pbImg = vImages.add_image();
			pbImg->set_timestamp(time);
			pbImg->set_width(m_nImgWidth);
			pbImg->set_height(m_nImgHeight);
			pbImg->set_serial_number(m_devices[i].serialNumber);

			
			pbImg->set_type(hal::PB_UNSIGNED_BYTE);
			if (m_bColor)
				pbImg->set_format(hal::PB_BGR);
			else
				pbImg->set_format(hal::PB_LUMINANCE);

			const libfreenect2::Frame* frame = fit->second;

			cv::Mat rgbaTrg(frame->height, frame->width, CV_8UC4, frame->data);
			//From http://fixall.online/well--basically-cvtcolor-only-works-with-a-fixed-set/2220695/
			
			std::vector<cv::Mat1b> channels_rgba;
			cv::split(rgbaTrg, channels_rgba);
			// create matrix with first three channels only
			std::vector<cv::Mat1b> channels_rgb(channels_rgba.begin(),
							    channels_rgba.begin()+3);
			cv::Mat3b trg;
			cv::merge(channels_rgb, trg);

			if (frame->height != m_nImgHeight || frame->width != m_nImgWidth)
				cv::resize(trg, trg, cv::Size(m_nImgWidth, m_nImgHeight));
			cv::flip(trg, trg, 1);
			cv::Mat1b gray;
			if (!m_bColor)
			  {
			    cv::cvtColor(trg,gray, CV_BGR2GRAY,1);
			    //Only copy one gray plane
			    pbImg->set_data(gray.ptr<unsigned char>(),
					gray.rows * gray.cols * 1);
			  }
			else
			  {
			    pbImg->set_data(trg.ptr<unsigned char>(),
					    trg.rows * trg.cols * trg.channels());
			  }
			save_rgb = true;
		}

		if ((fit = frames.find(libfreenect2::Frame::Ir)) != frames.end()) {
			const libfreenect2::Frame* frame = fit->second;
			hal::ImageMsg* pbImg = vImages.add_image();
			pbImg->set_timestamp(time);
			pbImg->set_width(frame->width);
			pbImg->set_height(frame->height);
			pbImg->set_serial_number(m_devices[i].serialNumber);

			pbImg->set_type(hal::PB_FLOAT);
			pbImg->set_format(hal::PB_LUMINANCE);

			cv::Mat trg(frame->height, frame->width, CV_32F, frame->data);
			cv::flip(trg, trg, 1);
			pbImg->set_data(trg.ptr<float>(),
					trg.rows * trg.cols * sizeof(float));
		}

		if ((fit = frames.find(libfreenect2::Frame::Depth)) != frames.end()) {
			const libfreenect2::Frame* frame = fit->second;
			cv::Mat trg = cv::Mat(frame->height, frame->width, CV_32FC1,
					frame->data);

			if (save_rgb && m_bAlign) {
				if (m_nImgHeight != IR_IMAGE_HEIGHT
						|| m_nImgWidth != IR_IMAGE_WIDTH)
					m_devices[i].registration->depthToRGBResolution(trg, trg);
			}

			// change rgb and depth image
			hal::ImageMsg* pbImg = vImages.add_image();
			pbImg->set_timestamp(time);
			pbImg->set_width(trg.cols);
			pbImg->set_height(trg.rows);
			pbImg->set_serial_number(m_devices[i].serialNumber);

			pbImg->set_type(hal::PB_FLOAT);
			pbImg->set_format(hal::PB_LUMINANCE);

			cv::flip(trg, trg, 1);
			pbImg->set_data(trg.ptr<float>(),
					trg.rows * trg.cols * sizeof(float));
		}

		m_devices[i].listener->release(frames);
	}

	return true;
}
Beispiel #5
0
bool Freenect2Driver::Capture(hal::CameraMsg& vImages) {
	vImages.Clear();
	vImages.set_device_time(Tic());

	libfreenect2::FrameMap frames;
	libfreenect2::FrameMap::const_iterator fit;

	for (size_t i = 0; i < m_devices.size(); ++i) {
		m_devices[i].listener->waitForNewFrame(frames);
		const double time = Tic();
		bool save_rgb = false;

		if ((fit = frames.find(libfreenect2::Frame::Color)) != frames.end()) {
			hal::ImageMsg* pbImg = vImages.add_image();
			pbImg->set_timestamp(time);
			pbImg->set_width(m_nImgWidth);
			pbImg->set_height(m_nImgHeight);
			pbImg->set_serial_number(m_devices[i].serialNumber);

			pbImg->set_type(hal::PB_UNSIGNED_BYTE);
			if (m_bColor)
				pbImg->set_format(hal::PB_BGR);
			else
				pbImg->set_format(hal::PB_LUMINANCE);

			const libfreenect2::Frame* frame = fit->second;
			cv::Mat trg(frame->height, frame->width, CV_8UC3, frame->data);
			if (frame->height != m_nImgHeight || frame->width != m_nImgWidth)
				cv::resize(trg, trg, cv::Size(m_nImgWidth, m_nImgHeight));
			if (!m_bColor)
				cv::cvtColor(trg, trg, CV_BGR2GRAY);
			cv::flip(trg, trg, 1);

			pbImg->set_data(trg.ptr<unsigned char>(),
					trg.rows * trg.cols * trg.channels());
			save_rgb = true;
		}

		if ((fit = frames.find(libfreenect2::Frame::Ir)) != frames.end()) {
			const libfreenect2::Frame* frame = fit->second;
			hal::ImageMsg* pbImg = vImages.add_image();
			pbImg->set_timestamp(time);
			pbImg->set_width(frame->width);
			pbImg->set_height(frame->height);
			pbImg->set_serial_number(m_devices[i].serialNumber);

			pbImg->set_type(hal::PB_FLOAT);
			pbImg->set_format(hal::PB_LUMINANCE);

			cv::Mat trg(frame->height, frame->width, CV_32F, frame->data);
			cv::flip(trg, trg, 1);
			pbImg->set_data(trg.ptr<float>(),
					trg.rows * trg.cols * sizeof(float));
		}

		if ((fit = frames.find(libfreenect2::Frame::Depth)) != frames.end()) {
			const libfreenect2::Frame* frame = fit->second;
			cv::Mat trg = cv::Mat(frame->height, frame->width, CV_32FC1,
					frame->data);

			if (save_rgb && m_bAlign) {
				if (m_nImgHeight != IR_IMAGE_HEIGHT
						|| m_nImgWidth != IR_IMAGE_WIDTH)
					m_devices[i].registration->depthToRGBResolution(trg, trg);
			}

			// change rgb and depth image
			hal::ImageMsg* pbImg = vImages.add_image();
			pbImg->set_timestamp(time);
			pbImg->set_width(trg.cols);
			pbImg->set_height(trg.rows);
			pbImg->set_serial_number(m_devices[i].serialNumber);

			pbImg->set_type(hal::PB_FLOAT);
			pbImg->set_format(hal::PB_LUMINANCE);

			cv::flip(trg, trg, 1);
			pbImg->set_data(trg.ptr<float>(),
					trg.rows * trg.cols * sizeof(float));
		}

		m_devices[i].listener->release(frames);
	}

	return true;
}