コード例 #1
0
ファイル: cap_openni.cpp プロジェクト: AndreSteenveld/opencv
inline void getBGRImageFromMetaData( const xn::ImageMetaData& imageMetaData, cv::Mat& bgrImage )
{
    if( imageMetaData.PixelFormat() != XN_PIXEL_FORMAT_RGB24 )
        CV_Error( CV_StsUnsupportedFormat, "Unsupported format of grabbed image\n" );

    cv::Mat rgbImage( imageMetaData.YRes(), imageMetaData.XRes(), CV_8UC3 );
    const XnRGB24Pixel* pRgbImage = imageMetaData.RGB24Data();

    // CV_Assert( 3*sizeof(uchar) == sizeof(XnRGB24Pixel) );
    memcpy( rgbImage.data, pRgbImage, rgbImage.total()*sizeof(XnRGB24Pixel) );
    cv::cvtColor( rgbImage, bgrImage, CV_RGB2BGR );
}
コード例 #2
0
ファイル: cap_openni.cpp プロジェクト: AndreSteenveld/opencv
IplImage* CvCapture_OpenNI::retrieveGrayImage()
{
    if( !imageMetaData.Data() )
        return 0;

    CV_Assert( imageMetaData.BytesPerPixel() == 3 ); // RGB

    cv::Mat rgbImage;
    getBGRImageFromMetaData( imageMetaData, rgbImage );
    cv::cvtColor( rgbImage, outputMaps[CV_CAP_OPENNI_GRAY_IMAGE].mat, CV_BGR2GRAY );

    return outputMaps[CV_CAP_OPENNI_GRAY_IMAGE].getIplImagePtr();
}
コード例 #3
0
ファイル: cap_openni.cpp プロジェクト: AndreSteenveld/opencv
        virtual bool grab( xn::DepthMetaData& depthMetaData,
                           xn::ImageMetaData& imageMetaData )
        {
            while(1)
            {
                if( !isDepthFilled )
                    isDepthFilled = popDepthMetaData(depth);
                if( !isImageFilled )
                    isImageFilled = popImageMetaData(image);

                if( !isDepthFilled || !isImageFilled )
                    break;

                double timeDiff = 1e-3 * std::abs(static_cast<double>(depth.Timestamp()) - static_cast<double>(image.Timestamp()));

                if( timeDiff <= approxSyncGrabber.maxTimeDuration )
                {
                    depthMetaData.InitFrom(depth);
                    imageMetaData.InitFrom(image);
                    isDepthFilled = isImageFilled = false;
                    return true;
                }
                else
                {
                    if( depth.Timestamp() < image.Timestamp() )
                        isDepthFilled = false;
                    else
                        isImageFilled = false;
                }
            }

            return false;
        }
コード例 #4
0
ファイル: cap_openni.cpp プロジェクト: AndreSteenveld/opencv
 virtual inline bool popImageMetaData( xn::ImageMetaData& imageMetaData )
 {
     cv::Ptr<xn::ImageMetaData> imagePtr;
     bool isPop = imageQueue.try_pop(imagePtr);
     if( isPop )
         imageMetaData.CopyFrom(*imagePtr);
     return isPop;
 }
コード例 #5
0
ファイル: cap_openni.cpp プロジェクト: AndreSteenveld/opencv
        virtual inline bool popImageMetaData( xn::ImageMetaData& imageMetaData )
        {
            if( imageQueue.empty() )
                return false;

            imageMetaData.CopyFrom(*imageQueue.front());
            imageQueue.pop();
            return true;
        }
コード例 #6
0
ファイル: cap_openni.cpp プロジェクト: AndreSteenveld/opencv
IplImage* CvCapture_OpenNI::retrieveBGRImage()
{
    if( !imageMetaData.Data() )
        return 0;

    getBGRImageFromMetaData( imageMetaData, outputMaps[CV_CAP_OPENNI_BGR_IMAGE].mat );

    return outputMaps[CV_CAP_OPENNI_BGR_IMAGE].getIplImagePtr();
}
コード例 #7
0
    /**
     * return RGB Image 
     */
    std::string getRGBImage(bool br) {
	       {
            ReadLock r_lock(myLock);
            stringstream emitter;
      	    emitter << "{RGBMap," << g_imageMD.XRes() << ","<< g_imageMD.YRes() << "}[";
            
            for(int i = 0; i < g_imageMD.XRes(); i++) {    
                  if(i>0 && br == true) emitter << "<BR>"; 
                  for(int j = 0; j < g_imageMD.YRes(); j++, pPixelPoint++) {
                       emitter << (int)(pPixelPoint->nRed) << ",";     
                       emitter << (int)(pPixelPoint->nGreen) << ",";
                       emitter << (int)(pPixelPoint->nBlue) << ";"; 
                  }      
            }
            
            emitter << "]";
            return emitter.str();      
        }
    }
コード例 #8
0
void SimKinect::DrawRGBMap(const xn::ImageMetaData& imd) {
	static bool bInitialized = false;
	static int width;
	static int height;
	static int width_step;
	static XnRGB24Pixel* g_pTexMap;

	if(!bInitialized) {
		width = video_size_width;
		height = video_size_height;
		g_pTexMap = (XnRGB24Pixel*)malloc(width * height * sizeof(XnRGB24Pixel));
		width_step = width*3;
		bInitialized = true;
	}

	const XnUInt8* pImage = imd.Data();
	const XnRGB24Pixel* pImageRow = imd.RGB24Data();
	XnRGB24Pixel* pTexRow = g_pTexMap + imd.YOffset() * width;
	
	for (XnUInt y = 0; y < imd.YRes(); ++y)
	{
		const XnRGB24Pixel* pImage = pImageRow;
		XnRGB24Pixel* pTex = pTexRow + imd.XOffset();

		for (XnUInt x = 0; x < imd.XRes(); ++x, ++pImage, ++pTex)
		{
			*pTex = *pImage;
		}

		pImageRow += imd.XRes();
		pTexRow += width;
	}

	//Draw rgb image
  XnRGB24Pixel* pix_ptr = g_pTexMap;
  
  for ( int i=0 ; i<height ; i++ ) {
		unsigned char* row_pointer = color_frame+i*width_step;
    for ( int j=0 ; j<width_step; j+=3,pix_ptr++ ) {
			row_pointer[j] = pix_ptr->nBlue;
      row_pointer[j+1]=pix_ptr->nGreen;
      row_pointer[j+2]=pix_ptr->nRed;
    }
  }
	//imshow("COLOR",color_img);
	
}
コード例 #9
0
ファイル: main.cpp プロジェクト: cvilas/scratch
bool DataCapture::captureOne()
{
    XnStatus rc = context_.WaitAndUpdateAll(); // want this to be WaitOneUpdateAll(RGB image)
    if( rc != XN_STATUS_OK )
    {
        std::cout << "WaitAndUpdateAll: " << xnGetStatusString(rc) << std::endl;
        return false;
    }

    // grab image
    imageGen_.GetMetaData(imageMd_);
    const XnRGB24Pixel* rgbData = imageMd_.RGB24Data();
    for( unsigned int i = 0; i < 640 * 480; ++i )
    {
        pRgbData_[3*i] = rgbData->nRed;
        pRgbData_[3*i + 1] = rgbData->nGreen;
        pRgbData_[3*i + 2] = rgbData->nBlue;
        ++rgbData;
    }

    // grab depth image
    depthGen_.GetMetaData(depthMd_);
    const uint16_t* pDepthDataU16 = depthMd_.Data();
    for( int i = 0; i < 640 * 480; ++i)
    {
        uint16_t d = pDepthDataU16[i];
        if( d != 0 )
        {
            pDepthData_[i] = (d * 255)/2048;
        }
        else
        {
            pDepthData_[i] = 0; // should be NAN
        }
    }
    return true;
}
コード例 #10
0
ファイル: main.cpp プロジェクト: maddy-z/Kinect-Explorer
int main ( int argc, char ** argv )
{
	// 
	// Initializing Calibration Related
	// 

	// ARTagHelper artagHelper	( colorImgWidth, colorImgHeight, ARTAG_CONFIG_FILE,		ARTAG_POS_FILE );
	ARTagHelper artagHelper		( colorImgWidth, colorImgHeight, ARTAG_CONFIG_A3_FILE,	ARTAG_POS_A3_FILE );

	ExtrCalibrator extrCalibrator ( 6, KINECT_INTR_FILE, KINECT_DIST_FILE );
	// unsigned char * kinectImgBuf = new unsigned char[colorImgWidth * colorImgHeight * 3];

	// 
	// Initializing OpenNI Settings
	// 

	int ctlWndKey = -1;

	XnStatus nRetVal = XN_STATUS_OK;
	xn::EnumerationErrors errors;

	// 
	// Initialize Context Object
	// 
	
	nRetVal = g_Context.InitFromXmlFile ( CONFIG_XML_PATH, g_ScriptNode, &errors );
	if ( nRetVal == XN_STATUS_NO_NODE_PRESENT ) 
	{
		XnChar strError[1024];
		errors.ToString ( strError, 1024 );
		printf ( "XN_STATUS_NO_NODE_PRESENT:\n%s\n", strError );
		
		system ( "pause" );
		return ( nRetVal );
	}
	else if ( nRetVal != XN_STATUS_OK )
	{
		printf ( "Open FAILED:\n%s\n", xnGetStatusString ( nRetVal ) );	
	
		system ( "pause" );
		return ( nRetVal );
	}

	// 
	// Handle the Depth Generator Node.
	// 
	
	nRetVal = g_Context.FindExistingNode ( XN_NODE_TYPE_DEPTH, g_DepthGen );
	if ( nRetVal != XN_STATUS_OK )
	{
		printf ( "No Depth Node Exists! Please Check your XML.\n" );
		return ( nRetVal );
	}
	
	// 
	// Handle the Image Generator node
	// 
	
	nRetVal = g_Context.FindExistingNode ( XN_NODE_TYPE_IMAGE, g_ImageGen );
	if ( nRetVal != XN_STATUS_OK )
	{
		printf ( "No Image Node Exists! Please Check your XML.\n" );
		return ( nRetVal );
	}

	// g_DepthGen.GetAlternativeViewPointCap().SetViewPoint( g_ImageGen );

	g_DepthGen.GetMetaData ( g_DepthMD );
	g_ImageGen.GetMetaData ( g_ImageMD );

	assert ( g_ImageMD.PixelFormat() == XN_PIXEL_FORMAT_RGB24 );
	assert ( g_DepthMD.PixelFormat() == XN_PIXEL_FORMAT_GRAYSCALE_16_BIT );

	// 
	// Create OpenCV Showing Window and Related Data Structures
	// 

	cv::namedWindow ( IMAGE_WIN_NAME, CV_WINDOW_AUTOSIZE );
	cv::namedWindow ( DEPTH_WIN_NAME, CV_WINDOW_AUTOSIZE );

	cv::Mat depthImgMat  ( g_DepthMD.YRes(), g_DepthMD.XRes(), CV_16UC1 );
	cv::Mat depthImgShow ( g_DepthMD.YRes(), g_DepthMD.XRes(), CV_8UC3  );
	cv::Mat colorImgMat  ( g_ImageMD.YRes(), g_ImageMD.XRes(), CV_8UC3 );

#define ARTAG_DEBUG

#ifdef ARTAG_DEBUG
	
	cv::setMouseCallback ( IMAGE_WIN_NAME, ClickOnMouse, 0 );

#endif

	bool flipColor = true;

	// 
	// Start to Loop
	// 

	while ( ctlWndKey != ESC_KEY_VALUE ) 
	{
		// 
		// Try to Get New Frame From Kinect
		// 
	
		nRetVal = g_Context.WaitAnyUpdateAll ();

		g_DepthGen.GetMetaData ( g_DepthMD );
		g_ImageGen.GetMetaData ( g_ImageMD );

		assert ( g_DepthMD.FullXRes() == g_DepthMD.XRes() && g_DepthMD.FullYRes() == g_DepthMD.YRes() );
		assert ( g_ImageMD.FullXRes() == g_ImageMD.XRes() && g_ImageMD.FullYRes() == g_ImageMD.YRes() );

		GlobalUtility::CopyColorRawBufToCvMat8uc3 ( (const XnRGB24Pixel *)(g_ImageMD.Data()), colorImgMat );

#ifdef SHOW_DEPTH_WINDOW

		GlobalUtility::CopyDepthRawBufToCvMat16u  ( (const XnDepthPixel *)(g_DepthMD.Data()), depthImgMat );
		// GlobalUtility::ConvertDepthCvMat16uToYellowCvMat ( depthImgMat, depthImgShow );
		GlobalUtility::ConvertDepthCvMat16uToGrayCvMat ( depthImgMat, depthImgShow );

		cv::imshow ( DEPTH_WIN_NAME, depthImgShow );

#endif

		ctlWndKey = cvWaitKey ( 15 );

		if ( ctlWndKey == 'f' || ctlWndKey == 'F' ) 
		{
			artagHelper.Clear();

			artagHelper.FindMarkerCorners ( (unsigned char *)(g_ImageMD.Data()) );
			artagHelper.PrintMarkerCornersPos2dInCam ();
			extrCalibrator.ExtrCalib ( artagHelper );

			std::cout << "\nKinect Extr Matrix:" << std::endl;
			extrCalibrator.PrintMatrix ( extrCalibrator.GetMatrix ( ExtrCalibrator::EXTR ) );

			std::cout	<< "Reprojection ERROR = " 
						<< extrCalibrator.ComputeReprojectionErr ( artagHelper ) << std::endl
						// << extrCalibrator.ComputeReprojectionErr ( artagHelper.m_MarkerCornerPosCam2d, artagHelper.m_MarkerCornerPos3d, 24 ) << std::endl
						<< "Valid Marker Number = " << artagHelper.GetValidMarkerNumber() << std::endl
						<< std::endl;

			extrCalibrator.SaveMatrix ( ExtrCalibrator::EXTR, KINECT_EXTR_FILE );
		}
		if ( ctlWndKey == 's' || ctlWndKey == 'S' )
		{
			flipColor = !flipColor;
		}

		if ( flipColor ) { 
			cv::cvtColor ( colorImgMat, colorImgMat, CV_RGB2BGR );
		}

		artagHelper.DrawMarkersInCameraImage ( colorImgMat );
		cv::imshow ( IMAGE_WIN_NAME, colorImgMat );
	}

	g_Context.Release ();
	
	system	( "pause" );
	exit	( EXIT_SUCCESS );

}
// Save new data from OpenNI
void MovieMng::Update(const xn::DepthMetaData& dmd, const xn::ImageMetaData& imd)
{
	// バッファ空き確認
	if((m_nBufferSizeFile == 0) || (m_nBufferSizeSend == 0))
	{
		printf("バッファ空きなし!! ForFile:%d ForSend:%d\n", m_nBufferSizeFile, m_nBufferSizeSend);
		return;
	}

	SingleFrame* pFrames = m_pFrames + m_nNextWrite;

	if(m_nNextWrite == 0)
	{
		m_nImageHeight = imd.FullYRes();
		m_nImageWidth = imd.FullXRes();
		m_nDepthHeight = dmd.FullYRes();
		m_nDepthWidth = dmd.FullXRes();

		printf("Image Height:%d Width:%d  Depth Height:%d Width:%d\n", 
			m_nImageHeight, m_nImageWidth, m_nDepthHeight, m_nDepthWidth);
	}
#ifdef LOG_WRITE_ENABLE
	fprintf(mmng_fp, "[%s] update. m_nNextWrite:%d\n", __FUNCTION__, m_nNextWrite);
#endif
	if (m_bDepth)
	{
		pFrames->depthFrame.CopyFrom(dmd);
	}
	
	if (m_bImage)
	{
		pFrames->imageFrame.CopyFrom(imd);
	}

	// バッファ管理情報書き換え
	if (m_bFileWrite)
	{
		EnterCriticalSection(&csFileWriter);
		m_nDataCountFile++;
		m_nBufferSizeFile--;
	}

	if (m_bSendDepth)
	{
		EnterCriticalSection(&csDepthSender);
		m_nDataCountSend++;
		m_nBufferSizeSend--;
	}
	
	m_nNextWrite++;
	if (m_nBufferSize == m_nNextWrite)
	{
		m_nNextWrite = 0;
	}

	if (m_bFileWrite)
	{
		LeaveCriticalSection(&csFileWriter);
	}
	
	if (m_bSendDepth)
	{
		LeaveCriticalSection(&csDepthSender);
	}
}
コード例 #12
0
void start_kinect() {
    XnStatus nRetVal = XN_STATUS_OK;
    xn::EnumerationErrors errors;
    UsersCount = 0;

    const char *fn = NULL;
    if    (fileExists(SAMPLE_XML_PATH)) fn = SAMPLE_XML_PATH;
    else if (fileExists(SAMPLE_XML_PATH_LOCAL)) fn = SAMPLE_XML_PATH_LOCAL;
    else {
        printf("Could not find '%s' nor '%s'. Aborting.\n" , SAMPLE_XML_PATH, SAMPLE_XML_PATH_LOCAL);
        //return XN_STATUS_ERROR;
    }
    printf("Reading config from: '%s'\n", fn);

    nRetVal = g_Context.InitFromXmlFile(fn, g_scriptNode, &errors);
    if (nRetVal == XN_STATUS_NO_NODE_PRESENT)
    {
        XnChar strError[1024];
        errors.ToString(strError, 1024);
        printf("%s\n", strError);
        //return (nRetVal);
    }
    else if (nRetVal != XN_STATUS_OK)
    {
        printf("Open failed: %s\n", xnGetStatusString(nRetVal));
        //return (nRetVal);
    }

    nRetVal = g_Context.FindExistingNode(XN_NODE_TYPE_DEPTH, g_depth);      
    CHECK_RC(nRetVal,"No depth");
    
	  nRetVal = g_Context.FindExistingNode(XN_NODE_TYPE_IMAGE, g_image);      
    CHECK_RC(nRetVal,"No image");

    nRetVal = g_Context.FindExistingNode(XN_NODE_TYPE_USER, g_UserGenerator);
    if (nRetVal != XN_STATUS_OK)
    {
        nRetVal = g_UserGenerator.Create(g_Context);
        CHECK_RC(nRetVal, "Find user generator");
    }

    XnCallbackHandle hUserCallbacks, hCalibrationStart, hCalibrationComplete, hPoseDetected;
    if (!g_UserGenerator.IsCapabilitySupported(XN_CAPABILITY_SKELETON))
    {
        printf("Supplied user generator doesn't support skeleton\n");
        //return 1;
    }
    nRetVal = g_UserGenerator.RegisterUserCallbacks(User_NewUser, User_LostUser, NULL, hUserCallbacks);
    CHECK_RC(nRetVal, "Register to user callbacks");
    nRetVal = g_UserGenerator.GetSkeletonCap().RegisterToCalibrationStart(UserCalibration_CalibrationStart, NULL, hCalibrationStart);
    CHECK_RC(nRetVal, "Register to calibration start");
    nRetVal = g_UserGenerator.GetSkeletonCap().RegisterToCalibrationComplete(UserCalibration_CalibrationComplete, NULL, hCalibrationComplete);
    CHECK_RC(nRetVal, "Register to calibration complete");

    if (g_UserGenerator.GetSkeletonCap().NeedPoseForCalibration())
    {
        g_bNeedPose = TRUE;
        if (!g_UserGenerator.IsCapabilitySupported(XN_CAPABILITY_POSE_DETECTION))
        {
            printf("Pose required, but not supported\n");
            //return 1;
        }
        nRetVal = g_UserGenerator.GetPoseDetectionCap().RegisterToPoseDetected(UserPose_PoseDetected, NULL, hPoseDetected);
        CHECK_RC(nRetVal, "Register to Pose Detected");
        g_UserGenerator.GetSkeletonCap().GetCalibrationPose(g_strPose);
    }

    g_UserGenerator.GetSkeletonCap().SetSkeletonProfile(XN_SKEL_PROFILE_ALL);

    nRetVal = g_Context.StartGeneratingAll();
    CHECK_RC(nRetVal, "StartGenerating");

    XnUserID aUsers[MAX_NUM_USERS];
    XnUInt16 nUsers;

    XnSkeletonJointTransformation anyjoint;

    printf("Starting to run\n");
    if(g_bNeedPose)
    {
        printf("Assume calibration pose\n");
    }
    XnUInt32 epochTime = 0;
    while (!xnOSWasKeyboardHit())
    {
        g_Context.WaitOneUpdateAll(g_UserGenerator);
        // print the torso information for the first user already tracking
        nUsers=MAX_NUM_USERS;
        g_UserGenerator.GetUsers(aUsers, nUsers);
        int numTracked=0;
        int userToPrint=-1;

        WriteLock w_lock(myLock);
    	  pDepthMap = g_depth.GetDepthMap();
        pPixelMap = g_image.GetRGB24ImageMap();
            
    	  g_depth.GetMetaData(g_depthMD);    
        g_image.GetMetaData(g_imageMD);
        pPixelPoint = g_imageMD.RGB24Data();


        for(XnUInt16 i=0; i<nUsers; i++) {
    			if(g_UserGenerator.GetSkeletonCap().IsTracking(aUsers[i])==FALSE)
    				continue;
    			{
    				
    				
    				/* Writing all new movements into structure*/
    				/* Head */
    				g_UserGenerator.GetSkeletonCap().GetSkeletonJoint(aUsers[i],XN_SKEL_HEAD,anyjoint);
    				Skeletons[i]["Head"]["X"] = anyjoint.position.position.X;
    				Skeletons[i]["Head"]["Y"] = anyjoint.position.position.Y;
    				Skeletons[i]["Head"]["Z"] = anyjoint.position.position.Z;
    				/* Neck */
    				g_UserGenerator.GetSkeletonCap().GetSkeletonJoint(aUsers[i],XN_SKEL_NECK,anyjoint);
    				Skeletons[i]["Neck"]["X"] = anyjoint.position.position.X;
    				Skeletons[i]["Neck"]["Y"] = anyjoint.position.position.Y;
    				Skeletons[i]["Neck"]["Z"] = anyjoint.position.position.Z;
    				/* Left Shoulder */
    				g_UserGenerator.GetSkeletonCap().GetSkeletonJoint(aUsers[i],XN_SKEL_LEFT_SHOULDER,anyjoint);
    				Skeletons[i]["LeftShoulder"]["X"] = anyjoint.position.position.X;
    				Skeletons[i]["LeftShoulder"]["Y"] = anyjoint.position.position.Y;
    				Skeletons[i]["LeftShoulder"]["Z"] = anyjoint.position.position.Z;
    				/* Right Shoulder */
    				g_UserGenerator.GetSkeletonCap().GetSkeletonJoint(aUsers[i],XN_SKEL_RIGHT_SHOULDER,anyjoint);
    				Skeletons[i]["RightShoulder"]["X"] = anyjoint.position.position.X;
    				Skeletons[i]["RightShoulder"]["Y"] = anyjoint.position.position.Y;
    				Skeletons[i]["RightShoulder"]["Z"] = anyjoint.position.position.Z;
    				/* Torso */
    				g_UserGenerator.GetSkeletonCap().GetSkeletonJoint(aUsers[i],XN_SKEL_TORSO,anyjoint);
    				Skeletons[i]["Torso"]["X"] = anyjoint.position.position.X;
    				Skeletons[i]["Torso"]["Y"] = anyjoint.position.position.Y;
    				Skeletons[i]["Torso"]["Z"] = anyjoint.position.position.Z;
    				/* Left Elbow */
    				g_UserGenerator.GetSkeletonCap().GetSkeletonJoint(aUsers[i],XN_SKEL_LEFT_ELBOW,anyjoint);
    				Skeletons[i]["LeftElbow"]["X"] = anyjoint.position.position.X;
    				Skeletons[i]["LeftElbow"]["Y"] = anyjoint.position.position.Y;
    				Skeletons[i]["LeftElbow"]["Z"] = anyjoint.position.position.Z;
    				/* Right Elbow */
    				g_UserGenerator.GetSkeletonCap().GetSkeletonJoint(aUsers[i],XN_SKEL_RIGHT_ELBOW,anyjoint);
    				Skeletons[i]["RightElbow"]["X"] = anyjoint.position.position.X;
    				Skeletons[i]["RightElbow"]["Y"] = anyjoint.position.position.Y;
    				Skeletons[i]["RightElbow"]["Z"] = anyjoint.position.position.Z;
    				/* Left Hip */
    				g_UserGenerator.GetSkeletonCap().GetSkeletonJoint(aUsers[i],XN_SKEL_LEFT_HIP,anyjoint);
    				Skeletons[i]["LeftHip"]["X"] = anyjoint.position.position.X;
    				Skeletons[i]["LeftHip"]["Y"] = anyjoint.position.position.Y;
    				Skeletons[i]["LeftHip"]["Z"] = anyjoint.position.position.Z;
    				/* Right Hip */
    				g_UserGenerator.GetSkeletonCap().GetSkeletonJoint(aUsers[i],XN_SKEL_RIGHT_HIP,anyjoint);
    				Skeletons[i]["RightHip"]["X"] = anyjoint.position.position.X;
    				Skeletons[i]["RightHip"]["Y"] = anyjoint.position.position.Y;
    				Skeletons[i]["RightHip"]["Z"] = anyjoint.position.position.Z;
    				/* Left Hand */
    				g_UserGenerator.GetSkeletonCap().GetSkeletonJoint(aUsers[i],XN_SKEL_LEFT_HAND,anyjoint);
    				Skeletons[i]["LeftHand"]["X"] = anyjoint.position.position.X;
    				Skeletons[i]["LeftHand"]["Y"] = anyjoint.position.position.Y;
    				Skeletons[i]["LeftHand"]["Z"] = anyjoint.position.position.Z;
    				/* Right Hand */
    				g_UserGenerator.GetSkeletonCap().GetSkeletonJoint(aUsers[i],XN_SKEL_RIGHT_HAND,anyjoint);
    				Skeletons[i]["RightHand"]["X"] = anyjoint.position.position.X;
    				Skeletons[i]["RightHand"]["Y"] = anyjoint.position.position.Y;
    				Skeletons[i]["RightHand"]["Z"] = anyjoint.position.position.Z;
    				/* Left Knee */
    				g_UserGenerator.GetSkeletonCap().GetSkeletonJoint(aUsers[i],XN_SKEL_LEFT_KNEE,anyjoint);
    				Skeletons[i]["LeftKnee"]["X"] = anyjoint.position.position.X;
    				Skeletons[i]["LeftKnee"]["Y"] = anyjoint.position.position.Y;
    				Skeletons[i]["LeftKnee"]["Z"] = anyjoint.position.position.Z;
    				/* Right Knee */
    				g_UserGenerator.GetSkeletonCap().GetSkeletonJoint(aUsers[i],XN_SKEL_RIGHT_KNEE,anyjoint);
    				Skeletons[i]["RightKnee"]["X"] = anyjoint.position.position.X;
    				Skeletons[i]["RightKnee"]["Y"] = anyjoint.position.position.Y;
    				Skeletons[i]["RightKnee"]["Z"] = anyjoint.position.position.Z;
    				/* Left Foot */
    				g_UserGenerator.GetSkeletonCap().GetSkeletonJoint(aUsers[i],XN_SKEL_LEFT_FOOT,anyjoint);
    				Skeletons[i]["LeftFoot"]["X"] = anyjoint.position.position.X;
    				Skeletons[i]["LeftFoot"]["Y"] = anyjoint.position.position.Y;
    				Skeletons[i]["LeftFoot"]["Z"] = anyjoint.position.position.Z;
    				/* Right Foot */
    				g_UserGenerator.GetSkeletonCap().GetSkeletonJoint(aUsers[i],XN_SKEL_RIGHT_FOOT,anyjoint);
    				Skeletons[i]["RightFoot"]["X"] = anyjoint.position.position.X;
    				Skeletons[i]["RightFoot"]["Y"] = anyjoint.position.position.Y;
    				Skeletons[i]["RightFoot"]["Z"] = anyjoint.position.position.Z;
    
    				/*printf("user %d: head at (%6.2f,%6.2f,%6.2f)\n",aUsers[i],
                                                                      Skeletons[i]["Head"]["X"],
                                                                      Skeletons[i]["Head"]["Y"],
                                                                      Skeletons[i]["Head"]["Z"]);*/
    			}				
        }
        
    }
    g_scriptNode.Release();
    g_depth.Release();
    g_image.Release();
    g_UserGenerator.Release();
    g_Context.Release();
}
コード例 #13
0
int main ( int argc, char * argv[] )
{
	// 
	// Initialize OpenNI Settings
	// 

	XnStatus nRetVal = XN_STATUS_OK;
	xn::ScriptNode scriptNode;
	xn::EnumerationErrors errors;

	// 
	// Initialize Context Object
	// 

	nRetVal = g_Context.InitFromXmlFile ( CONFIG_XML_PATH, scriptNode, &errors );
	
	if ( nRetVal == XN_STATUS_NO_NODE_PRESENT ) {
		XnChar strError[1024];
		errors.ToString(strError, 1024);
		printf ( "XN_STATUS_NO_NODE_PRESENT:\n%s\n", strError );
		system ( "pause" );

		return ( nRetVal );
	}
	else if ( nRetVal != XN_STATUS_OK ) {
		printf ( "Open failed: %s\n", xnGetStatusString(nRetVal) );	
		system ( "pause" );

		return ( nRetVal );
	}

	// 
	// Handle Image & Depth Generator Node
	// 

	bool colorFlag = true;
	bool depthFlag = true;

	nRetVal = g_Context.FindExistingNode ( XN_NODE_TYPE_DEPTH, g_DepthGen );
	if ( nRetVal != XN_STATUS_OK ) {
		printf("No depth node exists!\n");
		depthFlag = false;
	}
	nRetVal = g_Context.FindExistingNode ( XN_NODE_TYPE_IMAGE, g_ImageGen );
	if ( nRetVal != XN_STATUS_OK ) {
		printf("No image node exists!\n");
		colorFlag = false;
	}

	// g_DepthGen.GetAlternativeViewPointCap().SetViewPoint( g_ImageGen );

	if ( depthFlag ) {
		g_DepthGen.GetMetaData ( g_DepthMD );
		assert ( g_DepthMD.PixelFormat() == XN_PIXEL_FORMAT_GRAYSCALE_16_BIT );
	}
	if ( colorFlag ) {
		g_ImageGen.GetMetaData ( g_ImageMD );
		assert ( g_ImageMD.PixelFormat() == XN_PIXEL_FORMAT_RGB24 );
	}

	g_DepthImgShow = cv::Mat ( g_DepthMD.YRes(), g_DepthMD.XRes(), CV_8UC1  );
	g_DepthImgMat  = cv::Mat ( g_DepthMD.YRes(), g_DepthMD.XRes(), CV_16UC1 );
	g_ColorImgMat  = cv::Mat ( g_ImageMD.YRes(), g_ImageMD.XRes(), CV_8UC3  );
	
	// 
	// Start to Loop
	// 

	bool flipColor = true;
	int ctlWndKey = -1;

	g_StartTickCount = GetTickCount();
	g_HeadTrackingFrameCount = 0;
	
	while ( ctlWndKey != ESC_KEY_VALUE ) 
	{
		nRetVal = g_Context.WaitOneUpdateAll ( g_DepthGen );
		// nRetVal = g_Context.WaitAnyUpdateAll();

#ifdef HANDLING_IMAGE_DATA

		if ( colorFlag ) 
		{
			g_ImageGen.GetMetaData ( g_ImageMD );

			assert ( g_ImageMD.FullXRes() == g_ImageMD.XRes() );
			assert ( g_ImageMD.FullYRes() == g_ImageMD.YRes() );

			GlobalUtility::CopyColorRawBufToCvMat8uc3 ( (const XnRGB24Pixel *)(g_ImageMD.Data()), g_ColorImgMat );
	
			if ( ctlWndKey == 's' || ctlWndKey == 'S' ) {												// Switch
				flipColor = !flipColor;
			}
			if ( flipColor ) {
				cv::cvtColor ( g_ColorImgMat, g_ColorImgMat, CV_RGB2BGR );
			}

			cv::namedWindow ( IMAGE_WIN_NAME, CV_WINDOW_AUTOSIZE );
			cv::imshow ( IMAGE_WIN_NAME, g_ColorImgMat );
		}

#endif

#ifdef HANDLING_DEPTH_DATA

		if ( depthFlag ) 
		{
			g_DepthGen.GetMetaData(g_DepthMD);
		
			// assert ( g_DepthMD.FullXRes() == g_DepthMD.XRes() );
			// assert ( g_DepthMD.FullYRes() == g_DepthMD.YRes() );

			GlobalUtility::CopyDepthRawBufToCvMat16u ( (const XnDepthPixel *)(g_DepthMD.Data()), g_DepthImgMat );
			GlobalUtility::ConvertDepthCvMat16uToGrayCvMat ( g_DepthImgMat, g_DepthImgShow );

			/*
			cv::putText(colorImgMat, 
						GlobalUtility::DoubleToString(g_ImageMD.FPS()) + " FPS", 
						cv::Point(10, 450), 
						cv::FONT_ITALIC, 
						0.7, 
						cv::Scalar(255, 255, 255, 0),
						2,
						8,
						false);
						*/

			cv::namedWindow ( DEPTH_WIN_NAME, CV_WINDOW_AUTOSIZE );
			cv::imshow ( DEPTH_WIN_NAME, g_DepthImgShow );
		}

#endif

		XnFieldOfView fov;
		g_DepthGen.GetFieldOfView( fov );

		std::cout	<< "HFov = " << fov.fHFOV << std::endl
					<< "VFov = " << fov.fVFOV << std::endl;

		ctlWndKey = cvWaitKey ( 5 );

		g_HeadTrackingFrameCount++;
		g_CurrTickCount = GetTickCount();
		std::cout	<< "FPS = " 
					<< 1000 / ( ( double )( g_CurrTickCount - g_StartTickCount ) / ( double )( g_HeadTrackingFrameCount ) ) 
					<< std::endl;
	}

	g_Context.Release ();

	exit ( EXIT_SUCCESS );
}
コード例 #14
0
ファイル: OpenNIVideo.cpp プロジェクト: Avatarchik/osgART
bool OpenNIVideo::update(osg::NodeVisitor* nv) {

	//this is the main function of your video plugin
	//you can either retrieve images from your video stream/camera/file
	//or communicate with a thread to synchronize and get the data out
	
	//the most important is to synchronize your data
	//and copy the result to the VideoImageSteam used in this plugin
	//

	//0. you can collect some stats, for that you can use a timer
	osg::Timer t;

	{

	//1. mutex lock access to the image video stream
	OpenThreads::ScopedLock<OpenThreads::Mutex> _lock(this->getMutex());

	osg::notify(osg::DEBUG_INFO)<<"osgART::OpenNIVideo::update() get new image.."<<std::endl;

	XnStatus nRetVal = XN_STATUS_OK;

	nRetVal=context.WaitAndUpdateAll();
	CHECK_RC(nRetVal, "Update Data");

	xnFPSMarkFrame(&xnFPS);

	depth_generator.GetMetaData(depthMD);
	const XnDepthPixel* pDepthMap = depthMD.Data();
	//depth pixel floating point depth map.
	
	image_generator.GetMetaData(imageMD);
	const XnUInt8* pImageMap = imageMD.Data();

	// Hybrid mode isn't supported in this sample
	if (imageMD.FullXRes() != depthMD.FullXRes() || imageMD.FullYRes() != depthMD.FullYRes())
	{
		std::cerr<<"The device depth and image resolution must be equal!"<<std::endl;
		exit(1);
	}

	// RGB is the only image format supported.
	if (imageMD.PixelFormat() != XN_PIXEL_FORMAT_RGB24)
	{
		std::cerr<<"The device image format must be RGB24"<<std::endl;
		exit(1);
	}
	
	const XnDepthPixel* pDepth=pDepthMap;
	const XnUInt8* pImage=pImageMap;
	
	XnDepthPixel zMax = depthMD.ZRes();
    //convert float buffer to unsigned short
	for ( unsigned int i=0; i<(depthMD.XRes() * depthMD.YRes()); ++i )
    {
            *(_depthBufferByte + i) = 255 * (float(*(pDepth + i)) / float(zMax));
    }

	memcpy(_videoStreamList[0]->data(),pImage, _videoStreamList[0]->getImageSizeInBytes());
	
	memcpy(_videoStreamList[1]->data(),_depthBufferByte, _videoStreamList[1]->getImageSizeInBytes());

	//3. don't forget to call this to notify the rest of the application
	//that you have a new video image
	_videoStreamList[0]->dirty();
	_videoStreamList[1]->dirty();
	}

	//4. hopefully report some interesting data
	if (nv) {

		const osg::FrameStamp *framestamp = nv->getFrameStamp();

		if (framestamp && _stats.valid())
		{
			_stats->setAttribute(framestamp->getFrameNumber(),
				"Capture time taken", t.time_m());
		}
	}


	// Increase modified count every X ms to ensure tracker updates
	if (updateTimer.time_m() > 50) {
		_videoStreamList[0]->dirty();
		_videoStreamList[1]->dirty();
		updateTimer.setStartTick();
	}

	return true;
}
コード例 #15
0
void DrawDepthMap(const xn::DepthMetaData& dmd, const xn::SceneMetaData& smd, XnUserID player, xn::ImageMetaData& imd)
{
	texWidth = 640;
	texHeight = 480;


	LEFT = 0; RIGHT = 640;
	TOP = 0; BOTTOM = 480;

	nValue = 0;
	nIndex = 0;
	nX = 0; nY = 0;
	nNumberOfPoints = 0;
	g_nXRes = dmd.XRes();
	g_nYRes = dmd.YRes();

	pDestImage = pDepthTexBuf;

	pDepth = dmd.Data();
	pixel = imd.RGB24Data();
	pLabels = smd.Data();

	// Calculate the accumulative histogram
	memset(g_pDepthHist, 0, MAX_DEPTH*sizeof(float));
	for (nY=0; nY<g_nYRes; nY++)
	{
		for (nX=0; nX<g_nXRes; nX++)
		{
			nValue = *pDepth;

			if (nValue != 0)
			{
				g_pDepthHist[nValue]++;
				nNumberOfPoints++;
			}

			pDepth++;
		}
	}

	for (nIndex=1; nIndex<MAX_DEPTH; nIndex++)
	{
		g_pDepthHist[nIndex] += g_pDepthHist[nIndex-1];
	}
	if (nNumberOfPoints)
	{
		for (nIndex=1; nIndex<MAX_DEPTH; nIndex++)
		{
			g_pDepthHist[nIndex] = (unsigned int)(256 * (1.0f - (g_pDepthHist[nIndex] / nNumberOfPoints)));
		}
	}
//	printf("Debug: %i\n",focus);
	pDepth = (short unsigned int*)dmd.Data();
	///{
		// Prepare the texture map
		for (nY=0; nY<g_nYRes; nY++)
		{
			for (nX=0; nX < g_nXRes; nX++)
			{

				nValue = *pDepth;
				if(nX == (int)centerScreen[0] && nY == (int)centerScreen[1]){
					if (calibrationMode){
						depthVal = nValue;
//						printf("depthVal: %i\n",depthVal);
					}
				}
					//printf("Depth: %i \n",nValue);
				label = *pLabels;
//				XnUInt32 nColorID = label % nColors;
				if (label != focus)
				{
					if(calibrationMode){
						pDestImage[0] = pixel->nRed;
						pDestImage[1] = pixel->nGreen;
						pDestImage[2] = pixel->nBlue;
						pDestImage[3] = 255;
					} else {
						pDestImage[0] = 0;
						pDestImage[1] = 0;
						pDestImage[2] = 0;
						pDestImage[3] = 0;
					}
				} else {
					pDestImage[0] = pixel->nRed;
					pDestImage[1] = pixel->nGreen;
					pDestImage[2] = pixel->nBlue;
					pDestImage[3] = 255;

					//find max/min values for width and height boundaries
					if (nX > (unsigned int)LEFT) {
						LEFT = nX;
					}

					if (nX < (unsigned int)RIGHT) {
						RIGHT = nX;
					}

					if (nY > (unsigned int)TOP) {
						TOP = nY;
					}

					if (nY < (unsigned int)BOTTOM) {
						BOTTOM = nY;
					}
				}

				pixel++;
				pDepth++;
				pLabels++;
				pDestImage+=4;
			}

			pDestImage += (texWidth - g_nXRes) *4;
		}
	//}*/

	// Display the OpenGL texture map
	glTexImage2D(GL_TEXTURE_2D, 0, GL_RGBA, texWidth, texHeight, 0, GL_RGBA, GL_UNSIGNED_BYTE, pDepthTexBuf);

	nUsers = 15;
	g_UserGenerator.GetUsers(aUsers, nUsers);
	g_UserGenerator.GetCoM(aUsers[0], com);


	CENTER = com.X;

	//glDisable(GL_BLEND);
	//glDisable(GL_TEXTURE_2D);
/*
	char strLabel[20] = "";
	XnUserID aUsers[15];
	XnUInt16 nUsers = 15;
	g_UserGenerator.GetUsers(aUsers, nUsers);
	for (int i = 0; i < nUsers; ++i)
	{
		XnPoint3D com;
		g_UserGenerator.GetCoM(aUsers[i], com);
		g_DepthGenerator.ConvertRealWorldToProjective(1, &com, &com);

		if (aUsers[i] == player)
			sprintf(strLabel, "%d (Player)", aUsers[i]);
		else
			sprintf(strLabel, "%d", aUsers[i]);

		//glColor4f(1-Colors[i%nColors][0], 1-Colors[i%nColors][1], 1-Colors[i%nColors][2], 1);

		glRasterPos2i(com.X, com.Y);
		glPrintString(GLUT_BITMAP_HELVETICA_18, strLabel); */
//	}

	// Draw skeleton of user
//		glBegin(GL_LINES);
//		//glColor4f(1,0,0,1.0f);
//		glVertex3f(-1, 1, 0);
//		glVertex3f(1, -1, 0);
//		//glColor4f(1-Colors[player%nColors][0], 1-Colors[player%nColors][1], 1-Colors[player%nColors][2], 1);
//		DrawLimb(1, XN_SKEL_HEAD, XN_SKEL_NECK);
//
//		DrawLimb(1, XN_SKEL_NECK, XN_SKEL_LEFT_SHOULDER);
//		DrawLimb(1, XN_SKEL_LEFT_SHOULDER, XN_SKEL_LEFT_ELBOW);
//		DrawLimb(1, XN_SKEL_LEFT_ELBOW, XN_SKEL_LEFT_HAND);
//
//		DrawLimb(1, XN_SKEL_NECK, XN_SKEL_RIGHT_SHOULDER);
//		DrawLimb(1, XN_SKEL_RIGHT_SHOULDER, XN_SKEL_RIGHT_ELBOW);
//		DrawLimb(1, XN_SKEL_RIGHT_ELBOW, XN_SKEL_RIGHT_HAND);
//
//		DrawLimb(1, XN_SKEL_LEFT_SHOULDER, XN_SKEL_TORSO);
//		DrawLimb(1, XN_SKEL_RIGHT_SHOULDER, XN_SKEL_TORSO);
//
//		DrawLimb(1, XN_SKEL_TORSO, XN_SKEL_LEFT_HIP);
//		DrawLimb(1, XN_SKEL_LEFT_HIP, XN_SKEL_LEFT_KNEE);
//		DrawLimb(1, XN_SKEL_LEFT_KNEE, XN_SKEL_LEFT_FOOT);
//
//		DrawLimb(1, XN_SKEL_TORSO, XN_SKEL_RIGHT_HIP);
//		DrawLimb(1, XN_SKEL_RIGHT_HIP, XN_SKEL_RIGHT_KNEE);
//		DrawLimb(1, XN_SKEL_RIGHT_KNEE, XN_SKEL_RIGHT_FOOT);
//		glEnd();

	//XnSkeletonJoint eJoint1 = XN_SKEL_RIGHT_HAND;

}