コード例 #1
0
int main(int argc, char** argv)
{
	// 1a. Get default Sensor
	cout << "Try to get default sensor" << endl;
	IKinectSensor* pSensor = nullptr;
	if (GetDefaultKinectSensor(&pSensor) != S_OK)
	{
		cerr << "Get Sensor failed" << endl;
		return -1;
	}

	// 1b. Open sensor
	cout << "Try to open sensor" << endl;
	if (pSensor->Open() != S_OK)
	{
		cerr << "Can't open sensor" << endl;
		return -1;
	}

	// 2a. Get frame source
	cout << "Try to get body index source" << endl;
	IBodyIndexFrameSource* pFrameSource = nullptr;
	if (pSensor->get_BodyIndexFrameSource(&pFrameSource) != S_OK)
	{
		cerr << "Can't get body index frame source" << endl;
		return -1;
	}

	// 2b. Get frame description
	cout << "get body index frame description" << endl;
	int		iWidth = 0;
	int		iHeight = 0;
	IFrameDescription* pFrameDescription = nullptr;
	if (pFrameSource->get_FrameDescription(&pFrameDescription) == S_OK)
	{
		pFrameDescription->get_Width(&iWidth);
		pFrameDescription->get_Height(&iHeight);
	}
	pFrameDescription->Release();
	pFrameDescription = nullptr;

	// 3a. get frame reader
	cout << "Try to get body index frame reader" << endl;
	IBodyIndexFrameReader* pFrameReader = nullptr;
	if (pFrameSource->OpenReader(&pFrameReader) != S_OK)
	{
		cerr << "Can't get body index frame reader" << endl;
		return -1;
	}

	// 2c. release Frame source
	cout << "Release frame source" << endl;
	pFrameSource->Release();
	pFrameSource = nullptr;

	// Prepare OpenCV data
	cv::Mat	mImg(iHeight, iWidth, CV_8UC3);
	cv::namedWindow("Body Index Image");

	// color array
	cv::Vec3b aColorTable[7] = {
		cv::Vec3b(255,0,0),
		cv::Vec3b(0,255,0),
		cv::Vec3b(0,0,255),
		cv::Vec3b(255,255,0),
		cv::Vec3b(255,0,255),
		cv::Vec3b(0,255,255),
		cv::Vec3b(0,0,0),
	};

	// Enter main loop
	while (true)
	{
		// 4a. Get last frame
		IBodyIndexFrame* pFrame = nullptr;
		if (pFrameReader->AcquireLatestFrame(&pFrame) == S_OK)
		{
			// 4c. Fill OpenCV image
			UINT uSize = 0;
			BYTE* pBuffer = nullptr;
			if (pFrame->AccessUnderlyingBuffer(&uSize,&pBuffer) == S_OK)
			{
				for (int y = 0; y < iHeight; ++y)
				{
					for (int x = 0; x < iWidth; ++x)
					{
						int uBodyIdx = pBuffer[x + y * iWidth];
						if (uBodyIdx < 6)
							mImg.at<cv::Vec3b>(y, x) = aColorTable[uBodyIdx];
						else
							mImg.at<cv::Vec3b>(y, x) = aColorTable[6];
					}
				}
				cv::imshow("Body Index Image", mImg);
			}
			else
			{
				cerr << "Data access error" << endl;
			}

			// 4e. release frame
			pFrame->Release();
		}

		// 4f. check keyboard input
		if (cv::waitKey(30) == VK_ESCAPE){
			break;
		}
	}

	// 3b. release frame reader
	cout << "Release frame reader" << endl;
	pFrameReader->Release();
	pFrameReader = nullptr;

	// 1c. Close Sensor
	cout << "close sensor" << endl;
	pSensor->Close();

	// 1d. Release Sensor
	cout << "Release sensor" << endl;
	pSensor->Release();
	pSensor = nullptr;

	return 0;
}
コード例 #2
0
ファイル: Kinect2.cpp プロジェクト: naychrist/Cinder-Kinect2
void Device::update()
{
	if ( mSensor != 0 ) {
		mSensor->get_Status( &mStatus );
	}

	if ( mFrameReader == 0 ) {
		return;
	}

	IAudioBeamFrame* audioFrame								= 0;
	IBodyFrame* bodyFrame									= 0;
	IBodyIndexFrame* bodyIndexFrame							= 0;
	IColorFrame* colorFrame									= 0;
	IDepthFrame* depthFrame									= 0;
	IMultiSourceFrame* frame								= 0;
	IInfraredFrame* infraredFrame							= 0;
	ILongExposureInfraredFrame* infraredLongExposureFrame	= 0;
	
	HRESULT hr = mFrameReader->AcquireLatestFrame( &frame );

	// TODO audio
	if ( SUCCEEDED( hr ) ) {
		console() << "SUCCEEDED " << getElapsedFrames() << endl;
	}

	if ( SUCCEEDED( hr ) && mDeviceOptions.isBodyEnabled() ) {
		IBodyFrameReference* frameRef = 0;
		hr = frame->get_BodyFrameReference( &frameRef );
		if ( SUCCEEDED( hr ) ) {
			hr = frameRef->AcquireFrame( &bodyFrame );
		}
		if ( frameRef != 0 ) {
			frameRef->Release();
			frameRef = 0;
		}
	}

	if ( SUCCEEDED( hr ) && mDeviceOptions.isBodyIndexEnabled() ) {
		IBodyIndexFrameReference* frameRef = 0;
		hr = frame->get_BodyIndexFrameReference( &frameRef );
		if ( SUCCEEDED( hr ) ) {
			hr = frameRef->AcquireFrame( &bodyIndexFrame );
		}
		if ( frameRef != 0 ) {
			frameRef->Release();
			frameRef = 0;
		}
	}

	if ( SUCCEEDED( hr ) && mDeviceOptions.isColorEnabled() ) {
		IColorFrameReference* frameRef = 0;
		hr = frame->get_ColorFrameReference( &frameRef );
		if ( SUCCEEDED( hr ) ) {
			hr = frameRef->AcquireFrame( &colorFrame );
		}
		if ( frameRef != 0 ) {
			frameRef->Release();
			frameRef = 0;
		}
	}

	if ( SUCCEEDED( hr ) && mDeviceOptions.isDepthEnabled() ) {
		IDepthFrameReference* frameRef = 0;
		hr = frame->get_DepthFrameReference( &frameRef );
		if ( SUCCEEDED( hr ) ) {
			hr = frameRef->AcquireFrame( &depthFrame );
		}
		if ( frameRef != 0 ) {
			frameRef->Release();
			frameRef = 0;
		}
	}

	if ( SUCCEEDED( hr ) && mDeviceOptions.isInfraredEnabled() ) {
		IInfraredFrameReference* frameRef = 0;
		hr = frame->get_InfraredFrameReference( &frameRef );
		if ( SUCCEEDED( hr ) ) {
			hr = frameRef->AcquireFrame( &infraredFrame );
		}
		if ( frameRef != 0 ) {
			frameRef->Release();
			frameRef = 0;
		}
	}

	if ( SUCCEEDED( hr ) && mDeviceOptions.isInfraredLongExposureEnabled() ) {
		ILongExposureInfraredFrameReference* frameRef = 0;
		hr = frame->get_LongExposureInfraredFrameReference( &frameRef );
		if ( SUCCEEDED( hr ) ) {
			hr = frameRef->AcquireFrame( &infraredLongExposureFrame );
		}
		if ( frameRef != 0 ) {
			frameRef->Release();
			frameRef = 0;
		}
	}

	if ( SUCCEEDED( hr ) ) {
		long long time											= 0L;

		// TODO audio

		IFrameDescription* bodyFrameDescription					= 0;
		int32_t bodyWidth										= 0;
		int32_t bodyHeight										= 0;
		uint32_t bodyBufferSize									= 0;
		uint8_t* bodyBuffer										= 0;

		IFrameDescription* bodyIndexFrameDescription			= 0;
		int32_t bodyIndexWidth									= 0;
		int32_t bodyIndexHeight									= 0;
		uint32_t bodyIndexBufferSize							= 0;
		uint8_t* bodyIndexBuffer								= 0;
		
		IFrameDescription* colorFrameDescription				= 0;
		int32_t colorWidth										= 0;
		int32_t colorHeight										= 0;
		ColorImageFormat imageFormat							= ColorImageFormat_None;
		uint32_t colorBufferSize								= 0;
		uint8_t* colorBuffer									= 0;

		IFrameDescription* depthFrameDescription				= 0;
		int32_t depthWidth										= 0;
		int32_t depthHeight										= 0;
		uint16_t depthMinReliableDistance						= 0;
		uint16_t depthMaxReliableDistance						= 0;
		uint32_t depthBufferSize								= 0;
		uint16_t* depthBuffer									= 0;

		IFrameDescription* infraredFrameDescription				= 0;
		int32_t infraredWidth									= 0;
		int32_t infraredHeight									= 0;
		uint32_t infraredBufferSize								= 0;
		uint16_t* infraredBuffer								= 0;

		IFrameDescription* infraredLongExposureFrameDescription	= 0;
		int32_t infraredLongExposureWidth						= 0;
		int32_t infraredLongExposureHeight						= 0;
		uint32_t infraredLongExposureBufferSize					= 0;
		uint16_t* infraredLongExposureBuffer					= 0;

		hr = depthFrame->get_RelativeTime( &time );

		// TODO audio
		if ( mDeviceOptions.isAudioEnabled() ) {

		}

		// TODO body
		if ( mDeviceOptions.isBodyEnabled() ) {

		}

		if ( mDeviceOptions.isBodyIndexEnabled() ) {
			if ( SUCCEEDED( hr ) ) {
				hr = bodyIndexFrame->get_FrameDescription( &bodyIndexFrameDescription );
			}
			if ( SUCCEEDED( hr ) ) {
				hr = bodyIndexFrameDescription->get_Width( &bodyIndexWidth );
			}
			if ( SUCCEEDED( hr ) ) {
				hr = bodyIndexFrameDescription->get_Height( &bodyIndexHeight );
			}
			if ( SUCCEEDED( hr ) ) {
 				//hr = bodyIndexFrame->AccessUnderlyingBuffer( &bodyIndexBufferSize, &bodyIndexBuffer );
			}
		}

		if ( mDeviceOptions.isColorEnabled() ) {
			if ( SUCCEEDED( hr ) ) {
				hr = colorFrame->get_FrameDescription( &colorFrameDescription );
			}
			if ( SUCCEEDED( hr ) ) {
				hr = colorFrameDescription->get_Width( &colorWidth );
			}
			if ( SUCCEEDED( hr ) ) {
				hr = colorFrameDescription->get_Height( &colorHeight );
			}
			if ( SUCCEEDED( hr ) ) {
				hr = colorFrame->get_RawColorImageFormat( &imageFormat );
			}
			if ( SUCCEEDED( hr ) ) {
				bool isAllocated	= false;
				SurfaceChannelOrder channelOrder = SurfaceChannelOrder::BGRA;
				if ( imageFormat == ColorImageFormat_Bgra ) {
					hr = colorFrame->AccessRawUnderlyingBuffer( &colorBufferSize, reinterpret_cast<uint8_t**>( &colorBuffer ) );
					channelOrder = SurfaceChannelOrder::BGRA;
				} else if ( imageFormat == ColorImageFormat_Rgba ) {
					hr = colorFrame->AccessRawUnderlyingBuffer( &colorBufferSize, reinterpret_cast<uint8_t**>( &colorBuffer ) );
					channelOrder = SurfaceChannelOrder::RGBA;
				} else {
					isAllocated = true;
					colorBufferSize = colorWidth * colorHeight * sizeof( uint8_t ) * 4;
					colorBuffer = new uint8_t[ colorBufferSize ];
					hr = colorFrame->CopyConvertedFrameDataToArray( colorBufferSize, reinterpret_cast<uint8_t*>( colorBuffer ), ColorImageFormat_Rgba );
					channelOrder = SurfaceChannelOrder::RGBA;
				}

				if ( SUCCEEDED( hr ) ) {
					colorFrame->get_RelativeTime( &time );
					Surface8u colorSurface = Surface8u( colorBuffer, colorWidth, colorHeight, colorWidth * sizeof( uint8_t ) * 4, channelOrder );
					mFrame.mSurfaceColor = Surface8u( colorWidth, colorHeight, false, channelOrder );
					mFrame.mSurfaceColor.copyFrom( colorSurface, colorSurface.getBounds() );

					console() << "Color\n\twidth: " << colorWidth << "\n\theight: " << colorHeight 
						<< "\n\tbuffer size: " << colorBufferSize << "\n\ttime: " << time << endl;
				}

				if ( isAllocated && colorBuffer != 0 ) {
					delete[] colorBuffer;
					colorBuffer = 0;
				}
			}
		}

		if ( mDeviceOptions.isDepthEnabled() ) {
			if ( SUCCEEDED( hr ) ) {
				hr = depthFrame->get_FrameDescription( &depthFrameDescription );
			}
			if ( SUCCEEDED( hr ) ) {
				hr = depthFrameDescription->get_Width( &depthWidth );
			}
			if ( SUCCEEDED( hr ) ) {
				hr = depthFrameDescription->get_Height( &depthHeight );
			}
			if ( SUCCEEDED( hr ) ) {
				hr = depthFrame->get_DepthMinReliableDistance( &depthMinReliableDistance );
			}
			if ( SUCCEEDED( hr ) ) {
				hr = depthFrame->get_DepthMaxReliableDistance( &depthMaxReliableDistance );
			}
			if ( SUCCEEDED( hr ) ) {
				hr = depthFrame->AccessUnderlyingBuffer( &depthBufferSize, &depthBuffer );
			}
			if ( SUCCEEDED( hr ) ) {
				Channel16u depthChannel = Channel16u( depthWidth, depthHeight, depthWidth * sizeof( uint16_t ), 1, depthBuffer );
				mFrame.mChannelDepth = Channel16u( depthWidth, depthHeight );
				mFrame.mChannelDepth.copyFrom( depthChannel, depthChannel.getBounds() );

				console( ) << "Depth\n\twidth: " << depthWidth << "\n\theight: " << depthHeight << endl;
			}
		}

		if ( mDeviceOptions.isInfraredEnabled() ) {
			if ( SUCCEEDED( hr ) ) {
				hr = infraredFrame->get_FrameDescription( &infraredFrameDescription );
			}
			if ( SUCCEEDED( hr ) ) {
				hr = infraredFrameDescription->get_Width( &infraredWidth );
			}
			if ( SUCCEEDED( hr ) ) {
				hr = infraredFrameDescription->get_Height( &infraredHeight );
			}
			if ( SUCCEEDED( hr ) ) {
				hr = infraredFrame->AccessUnderlyingBuffer( &infraredBufferSize, &infraredBuffer );
			}
			if ( SUCCEEDED( hr ) ) {
				Channel16u infraredChannel = Channel16u( infraredWidth, infraredHeight, infraredWidth * sizeof( uint16_t ), 1, infraredBuffer );
				mFrame.mChannelInfrared = Channel16u( infraredWidth, infraredHeight );
				mFrame.mChannelInfrared.copyFrom( infraredChannel, infraredChannel.getBounds() );

				console( ) << "Infrared\n\twidth: " << infraredWidth << "\n\theight: " << infraredHeight << endl;
			}
		}

		if ( mDeviceOptions.isInfraredLongExposureEnabled() ) {
			if ( SUCCEEDED( hr ) ) {
				hr = infraredLongExposureFrame->get_FrameDescription( &infraredLongExposureFrameDescription );
			}
			if ( SUCCEEDED( hr ) ) {
				hr = infraredLongExposureFrameDescription->get_Width( &infraredLongExposureWidth );
			}
			if ( SUCCEEDED( hr ) ) {
				hr = infraredLongExposureFrameDescription->get_Height( &infraredLongExposureHeight );
			}
			if ( SUCCEEDED( hr ) ) {
				hr = infraredLongExposureFrame->AccessUnderlyingBuffer( &infraredLongExposureBufferSize, &infraredLongExposureBuffer );
			}
			if ( SUCCEEDED( hr ) ) {
				Channel16u infraredLongExposureChannel = Channel16u( infraredLongExposureWidth, infraredLongExposureHeight, infraredLongExposureWidth * sizeof( uint16_t ), 1, infraredLongExposureBuffer );
				mFrame.mChannelInfraredLongExposure = Channel16u( infraredLongExposureWidth, infraredLongExposureHeight );
				mFrame.mChannelInfraredLongExposure.copyFrom( infraredLongExposureChannel, infraredLongExposureChannel.getBounds() );

				int64_t irLongExpTime = 0;
				hr = infraredLongExposureFrame->get_RelativeTime( &irLongExpTime );

				console( ) << "Infrared Long Exposure\n\twidth: " << infraredLongExposureWidth << "\n\theight: " << infraredLongExposureHeight;
				if ( SUCCEEDED( hr ) ) {
					console() << "\n\ttimestamp: " << irLongExpTime;
				}
				console() << endl;
			}
		}

		if ( SUCCEEDED( hr ) ) {
			// TODO build Kinect2::Frame from buffers, data
			mFrame.mTimeStamp = time;
		}

		if ( bodyFrameDescription != 0 ) {
			bodyFrameDescription->Release();
			bodyFrameDescription = 0;
		}
		if ( bodyIndexFrameDescription != 0 ) {
			bodyIndexFrameDescription->Release();
			bodyIndexFrameDescription = 0;
		}
		if ( colorFrameDescription != 0 ) {
			colorFrameDescription->Release();
			colorFrameDescription = 0;
		}
		if ( depthFrameDescription != 0 ) {
			depthFrameDescription->Release();
			depthFrameDescription = 0;
		}
		if ( infraredFrameDescription != 0 ) {
			infraredFrameDescription->Release();
			infraredFrameDescription = 0;
		}
		if ( infraredLongExposureFrameDescription != 0 ) {
			infraredLongExposureFrameDescription->Release();
			infraredLongExposureFrameDescription = 0;
		}
	}

	if ( audioFrame != 0 ) {
		audioFrame->Release();
		audioFrame = 0;
	}
	if ( bodyFrame != 0 ) {
		bodyFrame->Release();
		bodyFrame = 0;
	}
	if ( bodyIndexFrame != 0 ) {
		bodyIndexFrame->Release();
		bodyIndexFrame = 0;
	}
	if ( colorFrame != 0 ) {
		colorFrame->Release();
		colorFrame = 0;
	}
	if ( depthFrame != 0 ) {
		depthFrame->Release();
		depthFrame = 0;
	}
	if ( frame != 0 ) {
		frame->Release();
		frame = 0;
	}
	if ( infraredFrame != 0 ) {
		infraredFrame->Release();
		infraredFrame = 0;
	}
	if ( infraredLongExposureFrame != 0 ) {
		infraredLongExposureFrame->Release();
		infraredLongExposureFrame = 0;
	}
}
コード例 #3
0
ファイル: main.cpp プロジェクト: berniebear/inhaler
int main(int argc, char** argv)
{
   int first_time = 0;
   Size screen_size(1440, 900);//the dst image size,e.g.100x100
   Scalar text_color = Scalar(0, 255, 0);
   Scalar text_color2 = Scalar(0, 255, 255);
   Scalar text_color3 = Scalar(0, 0, 255);

   inhaler_coach coach;
   coach.control = 0;
   thread mThread(test_func, &coach);

   // 1a. Get Kinect Sensor
   cout << "Try to get default sensor" << endl;
   IKinectSensor* pSensor = nullptr;
   if (GetDefaultKinectSensor(&pSensor) != S_OK)
   {
      cerr << "Get Sensor failed" << endl;
      return -1;
   }

   // 1b. Open sensor
   cout << "Try to open sensor" << endl;
   if (pSensor->Open() != S_OK)
   {
      cerr << "Can't open sensor" << endl;
      return -1;
   }

   // 2. Color Related code
   IColorFrameReader* pColorFrameReader = nullptr;
   cv::Mat	mColorImg;
   UINT uBufferSize = 0;
   UINT uColorPointNum = 0;
   int iWidth = 0;
   int iHeight = 0;
   {
      // 2a. Get color frame source
      cout << "Try to get color source" << endl;
      IColorFrameSource* pFrameSource = nullptr;
      if (pSensor->get_ColorFrameSource(&pFrameSource) != S_OK)
      {
         cerr << "Can't get color frame source" << endl;
         return -1;
      }

      // 2b. Get frame description
      cout << "get color frame description" << endl;
      IFrameDescription* pFrameDescription = nullptr;
      if (pFrameSource->get_FrameDescription(&pFrameDescription) == S_OK)
      {
         pFrameDescription->get_Width(&iWidth);
         pFrameDescription->get_Height(&iHeight);
      }
      pFrameDescription->Release();
      pFrameDescription = nullptr;

      // 2c. get frame reader
      cout << "Try to get color frame reader" << endl;
      if (pFrameSource->OpenReader(&pColorFrameReader) != S_OK)
      {
         cerr << "Can't get color frame reader" << endl;
         return -1;
      }

      // 2d. release Frame source
      cout << "Release frame source" << endl;
      pFrameSource->Release();
      pFrameSource = nullptr;

      // Prepare OpenCV data
      mColorImg = cv::Mat(iHeight, iWidth, CV_8UC4);
      uBufferSize = iHeight * iWidth * 4 * sizeof(BYTE);
      uColorPointNum = iHeight * iWidth;
   }
   

   // 3. Depth related code
   IDepthFrameReader* pDepthFrameReader = nullptr;
   UINT uDepthPointNum = 0;
   int iDepthWidth = 0, iDepthHeight = 0;
   cout << "Try to get depth source" << endl;
   {
      // Get frame source
      IDepthFrameSource* pFrameSource = nullptr;
      if (pSensor->get_DepthFrameSource(&pFrameSource) != S_OK)
      {
         cerr << "Can't get depth frame source" << endl;
         return -1;
      }

      // Get frame description
      cout << "get depth frame description" << endl;
      IFrameDescription* pFrameDescription = nullptr;
      if (pFrameSource->get_FrameDescription(&pFrameDescription) == S_OK)
      {
         pFrameDescription->get_Width(&iDepthWidth);
         pFrameDescription->get_Height(&iDepthHeight);
         uDepthPointNum = iDepthWidth * iDepthHeight;
      }
      pFrameDescription->Release();
      pFrameDescription = nullptr;

      // get frame reader
      cout << "Try to get depth frame reader" << endl;
      if (pFrameSource->OpenReader(&pDepthFrameReader) != S_OK)
      {
         cerr << "Can't get depth frame reader" << endl;
         return -1;
      }

      // release Frame source
      cout << "Release frame source" << endl;
      pFrameSource->Release();
      pFrameSource = nullptr;
   }



   // 4. Body related code
   IBodyFrameReader* pBodyFrameReader = nullptr;
   IBody** aBodyData = nullptr;
   INT32 iBodyCount = 0;
   {
      // 3a. Get frame source
      cout << "Try to get body source" << endl;
      IBodyFrameSource* pFrameSource = nullptr;
      if (pSensor->get_BodyFrameSource(&pFrameSource) != S_OK)
      {
         cerr << "Can't get body frame source" << endl;
         return -1;
      }

      // 3b. Get the number of body
      if (pFrameSource->get_BodyCount(&iBodyCount) != S_OK)
      {
         cerr << "Can't get body count" << endl;
         return -1;
      }
      cout << " > Can trace " << iBodyCount << " bodies" << endl;
      aBodyData = new IBody*[iBodyCount];
      for (int i = 0; i < iBodyCount; ++i)
         aBodyData[i] = nullptr;

      // 3c. get frame reader
      cout << "Try to get body frame reader" << endl;
      if (pFrameSource->OpenReader(&pBodyFrameReader) != S_OK)
      {
         cerr << "Can't get body frame reader" << endl;
         return -1;
      }

      // 3d. release Frame source
      cout << "Release frame source" << endl;
      pFrameSource->Release();
      pFrameSource = nullptr;
   }
   


   // 4. Body Index releated code
   IBodyIndexFrameReader* pBIFrameReader = nullptr;
   cout << "Try to get body index source" << endl;
   {
      // Get frame source
      IBodyIndexFrameSource* pFrameSource = nullptr;
      if (pSensor->get_BodyIndexFrameSource(&pFrameSource) != S_OK)
      {
         cerr << "Can't get body index frame source" << endl;
         return -1;
      }

      // get frame reader
      cout << "Try to get body index frame reader" << endl;
      if (pFrameSource->OpenReader(&pBIFrameReader) != S_OK)
      {
         cerr << "Can't get depth frame reader" << endl;
         return -1;
      }

      // release Frame source
      cout << "Release frame source" << endl;
      pFrameSource->Release();
      pFrameSource = nullptr;
   }



   // 5. background
   cv::Mat imgBG(iHeight, iWidth, CV_8UC3);
   imgBG.setTo(0);







   // 4. get CoordinateMapper
   ICoordinateMapper* pCoordinateMapper = nullptr;
   if (pSensor->get_CoordinateMapper(&pCoordinateMapper) != S_OK)
   {
      cout << "Can't get coordinate mapper" << endl;
      return -1;
   }

   // Enter main loop
   UINT16* pDepthPoints = new UINT16[uDepthPointNum];
   BYTE*	pBodyIndex = new BYTE[uDepthPointNum];
   DepthSpacePoint* pPointArray = new DepthSpacePoint[uColorPointNum];

   cv::namedWindow("Inhaler Coach");
   while (true)
   {
      // 4a. Get last frame
      IColorFrame* pColorFrame = nullptr;
      if (pColorFrameReader->AcquireLatestFrame(&pColorFrame) == S_OK)
      {
         pColorFrame->CopyConvertedFrameDataToArray(uBufferSize, mColorImg.data, ColorImageFormat_Bgra);
         pColorFrame->Release();
         pColorFrame = nullptr;
      }
      cv::Mat mImg = mColorImg.clone();
     
      // 8b. read depth frame
      IDepthFrame* pDepthFrame = nullptr;
      if (pDepthFrameReader->AcquireLatestFrame(&pDepthFrame) == S_OK)
      {
         pDepthFrame->CopyFrameDataToArray(uDepthPointNum, pDepthPoints);
         pDepthFrame->Release();
         pDepthFrame = nullptr;
      }


      // 8c. read body index frame
      IBodyIndexFrame* pBIFrame = nullptr;
      if (pBIFrameReader->AcquireLatestFrame(&pBIFrame) == S_OK)
      {
         pBIFrame->CopyFrameDataToArray(uDepthPointNum, pBodyIndex);
         pBIFrame->Release();
         pBIFrame = nullptr;
      }

#ifdef COACH_DEBUG
      cv::Mat imgTarget = imgBG.clone();
      // 9b. map color to depth
      if (pCoordinateMapper->MapColorFrameToDepthSpace(uDepthPointNum, pDepthPoints, uColorPointNum, pPointArray) == S_OK)
      {
         for (int y = 0; y < imgTarget.rows; ++y)
         {
            for (int x = 0; x < imgTarget.cols; ++x)
            {
               // ( x, y ) in color frame = rPoint in depth frame
               const DepthSpacePoint& rPoint = pPointArray[y * imgTarget.cols + x];

               // check if rPoint is in range
               if (rPoint.X >= 0 && rPoint.X < iDepthWidth && rPoint.Y >= 0 && rPoint.Y < iDepthHeight)
               {
                  // fill color from color frame if this pixel is user
                  int iIdx = (int)rPoint.X + iDepthWidth * (int)rPoint.Y;
                  if (pBodyIndex[iIdx] < 6)
                  {
                     cv::Vec4b& rPixel = mImg.at<cv::Vec4b>(y, x);
                     imgTarget.at<cv::Vec3b>(y, x) = cv::Vec3b(rPixel[0], rPixel[1], rPixel[2]);
                  }
               }
            }
         }
      }
#else
   cv::Mat imgTarget = mImg.clone();
#endif




      // 4b. Get body data
      IBodyFrame* pBodyFrame = nullptr;
      if (pBodyFrameReader->AcquireLatestFrame(&pBodyFrame) == S_OK)
      {

         // 4b. get Body data
         if (pBodyFrame->GetAndRefreshBodyData(iBodyCount, aBodyData) == S_OK)
         {
            // 4c. for each body
            for (int i = 0; i < iBodyCount; ++i)
            {
               IBody* pBody = aBodyData[i];

               // check if is tracked
               BOOLEAN bTracked = false;
               if ((pBody->get_IsTracked(&bTracked) == S_OK) && bTracked)
               {
                  // get joint position
                  Joint aJoints[JointType::JointType_Count];
                  if (pBody->GetJoints(JointType::JointType_Count, aJoints) == S_OK)
                  {
                     
                     if (coach.state == 0){
                        coach.state = 1;
                        if (first_time == 0){
                           first_time = 1;
                           PlaySound(TEXT("welcome.wav"), NULL, SND_FILENAME);
                        }
                     }
#ifdef COACH_DEBUG               
                     DrawLine(imgTarget, aJoints[JointType_SpineBase], aJoints[JointType_SpineMid], pCoordinateMapper);
                     DrawLine(imgTarget, aJoints[JointType_SpineMid], aJoints[JointType_SpineShoulder], pCoordinateMapper);
                     DrawLine(imgTarget, aJoints[JointType_SpineShoulder], aJoints[JointType_Neck], pCoordinateMapper);
                     DrawLine(imgTarget, aJoints[JointType_Neck], aJoints[JointType_Head], pCoordinateMapper);

                     DrawLine(imgTarget, aJoints[JointType_SpineShoulder], aJoints[JointType_ShoulderLeft], pCoordinateMapper);
                     DrawLine(imgTarget, aJoints[JointType_ShoulderLeft], aJoints[JointType_ElbowLeft], pCoordinateMapper);
                     DrawLine(imgTarget, aJoints[JointType_ElbowLeft], aJoints[JointType_WristLeft], pCoordinateMapper);
                     DrawLine(imgTarget, aJoints[JointType_WristLeft], aJoints[JointType_HandLeft], pCoordinateMapper);
                     DrawLine(imgTarget, aJoints[JointType_HandLeft], aJoints[JointType_HandTipLeft], pCoordinateMapper);
                     //DrawLine(imgTarget, aJoints[JointType_HandLeft], aJoints[JointType_ThumbLeft], pCoordinateMapper);

                     DrawLine(imgTarget, aJoints[JointType_SpineShoulder], aJoints[JointType_ShoulderRight], pCoordinateMapper);
                     DrawLine(imgTarget, aJoints[JointType_ShoulderRight], aJoints[JointType_ElbowRight], pCoordinateMapper);
                     DrawLine(imgTarget, aJoints[JointType_ElbowRight], aJoints[JointType_WristRight], pCoordinateMapper);
                     DrawLine(imgTarget, aJoints[JointType_WristRight], aJoints[JointType_HandRight], pCoordinateMapper);
                     DrawLine(imgTarget, aJoints[JointType_HandRight], aJoints[JointType_HandTipRight], pCoordinateMapper);
                     //DrawLine(imgTarget, aJoints[JointType_HandRight], aJoints[JointType_ThumbRight], pCoordinateMapper);
#endif
                     ColorSpacePoint q;
                     ColorSpacePoint head;
                     //ColorSpacePoint w;

                     pCoordinateMapper->MapCameraPointToColorSpace(aJoints[JointType_Head].Position, &head);
                     // check shaking
                     coach.shaking_detection(aJoints, pCoordinateMapper);
                     q = coach.position_checking(aJoints, pCoordinateMapper);
#ifdef COACH_DEBUG
                     circle(imgTarget, cv::Point(q.X, q.Y), 10, Scalar(0, 255, 255), 10, 8, 0);
                     //circle(imgTarget, cv::Point(q.X, q.Y), 10, Scalar(0, 255, 255), 10, 8, 0);
                     rectangle(imgTarget, Point(head.X - 50, head.Y - 40), Point(head.X + 50, head.Y + 90), Scalar(0, 255, 255), 1, 8, 0);
                     //circle(imgTarget, cv::Point(w.X, w.Y), 10, Scalar(255, 0, 255), 10, 8, 0);
#endif
                     coach.state_change_rule();
                  }
               }               
            }
         }
         else
         {
            cerr << "Can't read body data" << endl;
         }

         // 4e. release frame
         pBodyFrame->Release();
      }


      switch (coach.state){
         case 0: putText(imgTarget, "CMU Inhaler Coaching System", Point(120, 120), FONT_HERSHEY_DUPLEX, 2, text_color); break;
         case 1: putText(imgTarget, "Please shake the inhaler", Point(20, 120), FONT_HERSHEY_DUPLEX, 2, text_color2); break;
         case 2: putText(imgTarget, "Shaking detected", Point(20, 120), FONT_HERSHEY_DUPLEX, 2, text_color2); break;
         case 3: putText(imgTarget, "Please put the inhaler in front of your mouth", Point(20, 120), FONT_HERSHEY_DUPLEX, 2, text_color2); break;
         case 4: putText(imgTarget, "Position check OK", Point(20, 120), FONT_HERSHEY_DUPLEX, 2, text_color2); break;
         case 5: putText(imgTarget, "You forget to shake the inhaler first!!!", Point(20, 120), FONT_HERSHEY_DUPLEX, 2, text_color3); break;
      }

      // show image
      Mat dst;
      resize(imgTarget, dst, screen_size);
      imshow("Coach", dst);
      // 4c. check keyboard input
      if (cv::waitKey(30) == VK_ESCAPE){
         break;
      }
   }
   mThread.join();
   
   // 3. delete body data array
   delete[] aBodyData;

   // 3. release frame reader
   cout << "Release body frame reader" << endl;
   pBodyFrameReader->Release();
   pBodyFrameReader = nullptr;

   // 2. release color frame reader
   cout << "Release color frame reader" << endl;
   pColorFrameReader->Release();
   pColorFrameReader = nullptr;

   // 1c. Close Sensor
   cout << "close sensor" << endl;
   pSensor->Close();

   // 1d. Release Sensor
   cout << "Release sensor" << endl;
   pSensor->Release();
   pSensor = nullptr;

   return 0;
}
コード例 #4
0
ファイル: KinectDevice.cpp プロジェクト: AliShug/Kinecting
void KinectDevice::listen() {
    if (_listening) throw std::exception("Already listening for new frames");

    _listening = true;
    while (_listening) {
        int idx = WaitForSingleObject((HANDLE) _frameEvent, 100);
        switch (idx) {
        case WAIT_TIMEOUT:
            std::cout << ".";
            continue;
        case WAIT_OBJECT_0:
            IMultiSourceFrameArrivedEventArgs *frameArgs = nullptr;
            IMultiSourceFrameReference *frameRef = nullptr;
            HRESULT hr = _reader->GetMultiSourceFrameArrivedEventData(_frameEvent, &frameArgs);

            if (hr == S_OK) {
                hr = frameArgs->get_FrameReference(&frameRef);
                frameArgs->Release();
            }

            if (hr == S_OK) {
                //if (_lastFrame) _lastFrame->Release();
                hr = frameRef->AcquireFrame(&_lastFrame);
                frameRef->Release();
            }

            if (hr == S_OK) {
                // Store frame data
                //std::cout << "Got a frame YEAH" << std::endl;

                IDepthFrameReference                *depthRef   = nullptr;
                IColorFrameReference                *colorRef   = nullptr;
                IInfraredFrameReference             *irRef      = nullptr;
                ILongExposureInfraredFrameReference *hdirRef    = nullptr;
                IBodyIndexFrameReference            *indexRef   = nullptr;

                IDepthFrame                         *depth      = nullptr;
                IColorFrame                         *color      = nullptr;
                IInfraredFrame                      *ir         = nullptr;
                ILongExposureInfraredFrame          *hdir       = nullptr;
                IBodyIndexFrame                     *index      = nullptr;

                size_t size;
                uint16_t *buff;
                BYTE *cbuff;

                frameLock.lock();
                if (_streams & Streams::DEPTH_STREAM) {
                    _lastFrame->get_DepthFrameReference(&depthRef);
                    depthRef->AcquireFrame(&depth);
                    
                    if (depth) {
                        depthSwap();
                        depth->AccessUnderlyingBuffer(&size, &buff);
                        memcpy(depthData.get(), buff, size * sizeof(uint16_t));
                        depth->Release();
                    }
                    
                    depthRef->Release();
                }
                if (_streams & Streams::COLOR_STREAM) {
                    _lastFrame->get_ColorFrameReference(&colorRef);
                    colorRef->AcquireFrame(&color);
                    //color->AccessUnderlyingBuffer(&size, &buff);
                    //memcpy(_colorData.get(), buff, size);
                    color->Release();
                    colorRef->Release();
                }
                if (_streams & Streams::IR_STREAM) {
                    _lastFrame->get_InfraredFrameReference(&irRef);
                    irRef->AcquireFrame(&ir);
                    ir->AccessUnderlyingBuffer(&size, &buff);
                    memcpy(irData.get(), buff, size);
                    ir->Release();
                    irRef->Release();
                }
                if (_streams & Streams::HDIR_STREAM) {
                    _lastFrame->get_LongExposureInfraredFrameReference(&hdirRef);
                    hdirRef->AcquireFrame(&hdir);
                    hdir->AccessUnderlyingBuffer(&size, &buff);
                    memcpy(hdirData.get(), buff, size);
                    hdir->Release();
                    hdirRef->Release();
                }
                if (_streams & Streams::INDEX_STREAM) {
                    _lastFrame->get_BodyIndexFrameReference(&indexRef); 
                    indexRef->AcquireFrame(&index);
                    index->AccessUnderlyingBuffer(&size, &cbuff);
                    memcpy(indexData.get(), cbuff, size);
                    index->Release();
                    indexRef->Release();
                }

                frameLock.unlock();

                _lastFrame->Release();
            }
        }
    }
}
コード例 #5
0
ファイル: Kinect2.cpp プロジェクト: heisters/Cinder-Kinect2
void Device::update()
{
    if ( mFrameReader == 0 ) {
        return;
    }

    IAudioBeamFrame* audioFrame								= 0;
    IBodyFrame* bodyFrame									= 0;
    IBodyIndexFrame* bodyIndexFrame							= 0;
    IColorFrame* colorFrame									= 0;
    IDepthFrame* depthFrame									= 0;
    IMultiSourceFrame* frame								= 0;
    IInfraredFrame* infraredFrame							= 0;
    ILongExposureInfraredFrame* infraredLongExposureFrame	= 0;

    HRESULT hr = mFrameReader->AcquireLatestFrame( &frame );

    if ( SUCCEEDED( hr ) && mDeviceOptions.isAudioEnabled() ) {
        // TODO audio
    }

    if ( SUCCEEDED( hr ) && mDeviceOptions.isBodyEnabled() ) {
        IBodyFrameReference* frameRef = 0;
        hr = frame->get_BodyFrameReference( &frameRef );
        if ( SUCCEEDED( hr ) ) {
            hr = frameRef->AcquireFrame( &bodyFrame );
        }
        if ( frameRef != 0 ) {
            frameRef->Release();
            frameRef = 0;
        }
    }

    if ( SUCCEEDED( hr ) && mDeviceOptions.isBodyIndexEnabled() ) {
        IBodyIndexFrameReference* frameRef = 0;
        hr = frame->get_BodyIndexFrameReference( &frameRef );
        if ( SUCCEEDED( hr ) ) {
            hr = frameRef->AcquireFrame( &bodyIndexFrame );
        }
        if ( frameRef != 0 ) {
            frameRef->Release();
            frameRef = 0;
        }
    }

    if ( SUCCEEDED( hr ) && mDeviceOptions.isColorEnabled() ) {
        IColorFrameReference* frameRef = 0;
        hr = frame->get_ColorFrameReference( &frameRef );
        if ( SUCCEEDED( hr ) ) {
            hr = frameRef->AcquireFrame( &colorFrame );
        }
        if ( frameRef != 0 ) {
            frameRef->Release();
            frameRef = 0;
        }
    }

    if ( SUCCEEDED( hr ) && mDeviceOptions.isDepthEnabled() ) {
        IDepthFrameReference* frameRef = 0;
        hr = frame->get_DepthFrameReference( &frameRef );
        if ( SUCCEEDED( hr ) ) {
            hr = frameRef->AcquireFrame( &depthFrame );
        }
        if ( frameRef != 0 ) {
            frameRef->Release();
            frameRef = 0;
        }
    }

    if ( SUCCEEDED( hr ) && mDeviceOptions.isInfraredEnabled() ) {
        IInfraredFrameReference* frameRef = 0;
        hr = frame->get_InfraredFrameReference( &frameRef );
        if ( SUCCEEDED( hr ) ) {
            hr = frameRef->AcquireFrame( &infraredFrame );
        }
        if ( frameRef != 0 ) {
            frameRef->Release();
            frameRef = 0;
        }
    }

    if ( SUCCEEDED( hr ) && mDeviceOptions.isInfraredLongExposureEnabled() ) {
        ILongExposureInfraredFrameReference* frameRef = 0;
        hr = frame->get_LongExposureInfraredFrameReference( &frameRef );
        if ( SUCCEEDED( hr ) ) {
            hr = frameRef->AcquireFrame( &infraredLongExposureFrame );
        }
        if ( frameRef != 0 ) {
            frameRef->Release();
            frameRef = 0;
        }
    }

    if ( SUCCEEDED( hr ) ) {
        long long timeStamp										= 0L;

        // TODO audio

        std::vector<Body> bodies;
        int64_t bodyTime										= 0L;
        IBody* kinectBodies[ BODY_COUNT ]						= { 0 };
        Vec4f floorClipPlane									= Vec4f::zero();

        Channel8u bodyIndexChannel;
        IFrameDescription* bodyIndexFrameDescription			= 0;
        int32_t bodyIndexWidth									= 0;
        int32_t bodyIndexHeight									= 0;
        uint32_t bodyIndexBufferSize							= 0;
        uint8_t* bodyIndexBuffer								= 0;
        int64_t bodyIndexTime									= 0L;

        Surface8u colorSurface;
        IFrameDescription* colorFrameDescription				= 0;
        int32_t colorWidth										= 0;
        int32_t colorHeight										= 0;
        ColorImageFormat colorImageFormat						= ColorImageFormat_None;
        uint32_t colorBufferSize								= 0;
        uint8_t* colorBuffer									= 0;

        Channel16u depthChannel;
        IFrameDescription* depthFrameDescription				= 0;
        int32_t depthWidth										= 0;
        int32_t depthHeight										= 0;
        uint16_t depthMinReliableDistance						= 0;
        uint16_t depthMaxReliableDistance						= 0;
        uint32_t depthBufferSize								= 0;
        uint16_t* depthBuffer									= 0;

        Channel16u infraredChannel;
        IFrameDescription* infraredFrameDescription				= 0;
        int32_t infraredWidth									= 0;
        int32_t infraredHeight									= 0;
        uint32_t infraredBufferSize								= 0;
        uint16_t* infraredBuffer								= 0;

        Channel16u infraredLongExposureChannel;
        IFrameDescription* infraredLongExposureFrameDescription	= 0;
        int32_t infraredLongExposureWidth						= 0;
        int32_t infraredLongExposureHeight						= 0;
        uint32_t infraredLongExposureBufferSize					= 0;
        uint16_t* infraredLongExposureBuffer					= 0;

        hr = depthFrame->get_RelativeTime( &timeStamp );

        // TODO audio
        if ( mDeviceOptions.isAudioEnabled() ) {

        }

        if ( mDeviceOptions.isBodyEnabled() ) {
            if ( SUCCEEDED( hr ) ) {
                hr = bodyFrame->get_RelativeTime( &bodyTime );
            }
            if ( SUCCEEDED( hr ) ) {
                hr = bodyFrame->GetAndRefreshBodyData( BODY_COUNT, kinectBodies );
            }
            if ( SUCCEEDED( hr ) ) {
                Vector4 v;
                hr = bodyFrame->get_FloorClipPlane( &v );
                floorClipPlane = toVec4f( v );
            }
            if ( SUCCEEDED( hr ) ) {
                for ( uint8_t i = 0; i < BODY_COUNT; ++i ) {
                    IBody* kinectBody = kinectBodies[ i ];
                    if ( kinectBody != 0 ) {
                        uint8_t isTracked	= false;
                        hr					= kinectBody->get_IsTracked( &isTracked );
                        if ( SUCCEEDED( hr ) && isTracked ) {
                            Joint joints[ JointType_Count ];
                            kinectBody->GetJoints( JointType_Count, joints );

                            JointOrientation jointOrientations[ JointType_Count ];
                            kinectBody->GetJointOrientations( JointType_Count, jointOrientations );

                            uint64_t id = 0;
                            kinectBody->get_TrackingId( &id );

                            std::map<JointType, Body::Joint> jointMap;
                            for ( int32_t j = 0; j < JointType_Count; ++j ) {
                                Body::Joint joint(
                                    toVec3f( joints[ j ].Position ),
                                    toQuatf( jointOrientations[ j ].Orientation ),
                                    joints[ j ].TrackingState
                                );
                                jointMap.insert( pair<JointType, Body::Joint>( static_cast<JointType>( j ), joint ) );
                            }
                            Body body( id, i, jointMap );
                            bodies.push_back( body );
                        }
                    }
                }
            }
        }

        if ( mDeviceOptions.isBodyIndexEnabled() ) {
            if ( SUCCEEDED( hr ) ) {
                hr = bodyIndexFrame->get_RelativeTime( &bodyIndexTime );
            }
            if ( SUCCEEDED( hr ) ) {
                hr = bodyIndexFrame->get_FrameDescription( &bodyIndexFrameDescription );
            }
            if ( SUCCEEDED( hr ) ) {
                hr = bodyIndexFrameDescription->get_Width( &bodyIndexWidth );
            }
            if ( SUCCEEDED( hr ) ) {
                hr = bodyIndexFrameDescription->get_Height( &bodyIndexHeight );
            }
            if ( SUCCEEDED( hr ) ) {
                hr = bodyIndexFrame->AccessUnderlyingBuffer( &bodyIndexBufferSize, &bodyIndexBuffer );
            }
            if ( SUCCEEDED( hr ) ) {
                bodyIndexChannel = Channel8u( bodyIndexWidth, bodyIndexHeight );
                memcpy( bodyIndexChannel.getData(), bodyIndexBuffer, bodyIndexWidth * bodyIndexHeight * sizeof( uint8_t ) );
            }
        }

        if ( mDeviceOptions.isColorEnabled() ) {
            if ( SUCCEEDED( hr ) ) {
                hr = colorFrame->get_FrameDescription( &colorFrameDescription );
                if ( SUCCEEDED( hr ) ) {
                    float vFov = 0.0f;
                    float hFov = 0.0f;
                    float dFov = 0.0f;
                    colorFrameDescription->get_VerticalFieldOfView( &vFov );
                    colorFrameDescription->get_HorizontalFieldOfView( &hFov );
                    colorFrameDescription->get_DiagonalFieldOfView( &dFov );
                }
            }
            if ( SUCCEEDED( hr ) ) {
                hr = colorFrameDescription->get_Width( &colorWidth );
            }
            if ( SUCCEEDED( hr ) ) {
                hr = colorFrameDescription->get_Height( &colorHeight );
            }
            if ( SUCCEEDED( hr ) ) {
                hr = colorFrame->get_RawColorImageFormat( &colorImageFormat );
            }
            if ( SUCCEEDED( hr ) ) {
                colorBufferSize = colorWidth * colorHeight * sizeof( uint8_t ) * 4;
                colorBuffer		= new uint8_t[ colorBufferSize ];
                hr = colorFrame->CopyConvertedFrameDataToArray( colorBufferSize, reinterpret_cast<uint8_t*>( colorBuffer ), ColorImageFormat_Rgba );

                if ( SUCCEEDED( hr ) ) {
                    colorSurface = Surface8u( colorWidth, colorHeight, false, SurfaceChannelOrder::RGBA );
                    memcpy( colorSurface.getData(), colorBuffer, colorWidth * colorHeight * sizeof( uint8_t ) * 4 );
                }

                delete [] colorBuffer;
                colorBuffer = 0;
            }
        }

        if ( mDeviceOptions.isDepthEnabled() ) {
            if ( SUCCEEDED( hr ) ) {
                hr = depthFrame->get_FrameDescription( &depthFrameDescription );
            }
            if ( SUCCEEDED( hr ) ) {
                hr = depthFrameDescription->get_Width( &depthWidth );
            }
            if ( SUCCEEDED( hr ) ) {
                hr = depthFrameDescription->get_Height( &depthHeight );
            }
            if ( SUCCEEDED( hr ) ) {
                hr = depthFrame->get_DepthMinReliableDistance( &depthMinReliableDistance );
            }
            if ( SUCCEEDED( hr ) ) {
                hr = depthFrame->get_DepthMaxReliableDistance( &depthMaxReliableDistance );
            }
            if ( SUCCEEDED( hr ) ) {
                hr = depthFrame->AccessUnderlyingBuffer( &depthBufferSize, &depthBuffer );
            }
            if ( SUCCEEDED( hr ) ) {
                depthChannel = Channel16u( depthWidth, depthHeight );
                memcpy( depthChannel.getData(), depthBuffer, depthWidth * depthHeight * sizeof( uint16_t ) );
            }
        }

        if ( mDeviceOptions.isInfraredEnabled() ) {
            if ( SUCCEEDED( hr ) ) {
                hr = infraredFrame->get_FrameDescription( &infraredFrameDescription );
            }
            if ( SUCCEEDED( hr ) ) {
                hr = infraredFrameDescription->get_Width( &infraredWidth );
            }
            if ( SUCCEEDED( hr ) ) {
                hr = infraredFrameDescription->get_Height( &infraredHeight );
            }
            if ( SUCCEEDED( hr ) ) {
                hr = infraredFrame->AccessUnderlyingBuffer( &infraredBufferSize, &infraredBuffer );
            }
            if ( SUCCEEDED( hr ) ) {
                infraredChannel = Channel16u( infraredWidth, infraredHeight );
                memcpy( infraredChannel.getData(), infraredBuffer,  infraredWidth * infraredHeight * sizeof( uint16_t ) );
            }
        }

        if ( mDeviceOptions.isInfraredLongExposureEnabled() ) {
            if ( SUCCEEDED( hr ) ) {
                hr = infraredLongExposureFrame->get_FrameDescription( &infraredLongExposureFrameDescription );
            }
            if ( SUCCEEDED( hr ) ) {
                hr = infraredLongExposureFrameDescription->get_Width( &infraredLongExposureWidth );
            }
            if ( SUCCEEDED( hr ) ) {
                hr = infraredLongExposureFrameDescription->get_Height( &infraredLongExposureHeight );
            }
            if ( SUCCEEDED( hr ) ) {
                hr = infraredLongExposureFrame->AccessUnderlyingBuffer( &infraredLongExposureBufferSize, &infraredLongExposureBuffer );
            }
            if ( SUCCEEDED( hr ) ) {
                infraredLongExposureChannel = Channel16u( infraredLongExposureWidth, infraredLongExposureHeight );
                memcpy( infraredLongExposureChannel.getData(), infraredLongExposureBuffer, infraredLongExposureWidth * infraredLongExposureHeight * sizeof( uint16_t ) );
            }
        }

        if ( SUCCEEDED( hr ) ) {
            mFrame.mBodies						= bodies;
            mFrame.mChannelBodyIndex			= bodyIndexChannel;
            mFrame.mChannelDepth				= depthChannel;
            mFrame.mChannelInfrared				= infraredChannel;
            mFrame.mChannelInfraredLongExposure	= infraredLongExposureChannel;
            mFrame.mDeviceId					= mDeviceOptions.getDeviceId();
            mFrame.mSurfaceColor				= colorSurface;
            mFrame.mTimeStamp					= timeStamp;
            mFrame.mFloorClipPlane				= floorClipPlane;
        }

        if ( bodyIndexFrameDescription != 0 ) {
            bodyIndexFrameDescription->Release();
            bodyIndexFrameDescription = 0;
        }
        if ( colorFrameDescription != 0 ) {
            colorFrameDescription->Release();
            colorFrameDescription = 0;
        }
        if ( depthFrameDescription != 0 ) {
            depthFrameDescription->Release();
            depthFrameDescription = 0;
        }
        if ( infraredFrameDescription != 0 ) {
            infraredFrameDescription->Release();
            infraredFrameDescription = 0;
        }
        if ( infraredLongExposureFrameDescription != 0 ) {
            infraredLongExposureFrameDescription->Release();
            infraredLongExposureFrameDescription = 0;
        }
    }

    if ( audioFrame != 0 ) {
        audioFrame->Release();
        audioFrame = 0;
    }
    if ( bodyFrame != 0 ) {
        bodyFrame->Release();
        bodyFrame = 0;
    }
    if ( bodyIndexFrame != 0 ) {
        bodyIndexFrame->Release();
        bodyIndexFrame = 0;
    }
    if ( colorFrame != 0 ) {
        colorFrame->Release();
        colorFrame = 0;
    }
    if ( depthFrame != 0 ) {
        depthFrame->Release();
        depthFrame = 0;
    }
    if ( frame != 0 ) {
        frame->Release();
        frame = 0;
    }
    if ( infraredFrame != 0 ) {
        infraredFrame->Release();
        infraredFrame = 0;
    }
    if ( infraredLongExposureFrame != 0 ) {
        infraredLongExposureFrame->Release();
        infraredLongExposureFrame = 0;
    }
}