Exemplo n.º 1
0
        /// Handles the body index frame data arriving from the sensor
        /// <param name="sender">object sending the event</param>
        /// <param name="e">event arguments</param>
        private void Reader_FrameArrived(object sender, BodyIndexFrameArrivedEventArgs e)
        {
            bool bodyIndexFrameProcessed = false;

            using (BodyIndexFrame bodyIndexFrame = e.FrameReference.AcquireFrame())
            {
                if (bodyIndexFrame != null)
                {
                    // the fastest way to process the body index data is to directly access
                    // the underlying buffer
                    using (Microsoft.Kinect.KinectBuffer bodyIndexBuffer = bodyIndexFrame.LockImageBuffer())
                    {
                        // verify data and write the color data to the display bitmap
                        if (((this._bodyIndexFrameDescription.Width * this._bodyIndexFrameDescription.Height) == bodyIndexBuffer.Size) &&
                            (this._bodyIndexFrameDescription.Width == this._bodyIndexBitmap.PixelWidth) && (this._bodyIndexFrameDescription.Height == this._bodyIndexBitmap.PixelHeight))
                        {
                            this.ProcessBodyIndexFrameData(bodyIndexBuffer.UnderlyingBuffer, bodyIndexBuffer.Size);
                            bodyIndexFrameProcessed = true;
                        }
                    }
                }
            }

            if (bodyIndexFrameProcessed)
            {
                this.RenderBodyIndexPixels();
            }
        }
Exemplo n.º 2
0
        public void PollMostRecentSilhouetteFrame()
        {
            MultiSourceFrame multiFrame = _reader.AcquireLatestFrame();

            if (multiFrame == null)
            {
                return;
            }

            using (BodyIndexFrame frame = multiFrame.BodyIndexFrameReference.AcquireFrame())
            {
                if (frame == null)
                {
                    return; // Could not find multi-frame or body index frame
                }

                using (KinectBuffer buffer = frame.LockImageBuffer())
                {
                    if (
                        SilhouetteFrameDescription.Width *
                        SilhouetteFrameDescription.Height == buffer.Size)
                    {
                        ProcessSilhouetteData(buffer.UnderlyingBuffer, buffer.Size);
                    }
                }
            }
        }
        private bool aquireBodyDataAndBuffers(
            BodyFrame bodyFrame, DepthFrame depthFrame, BodyIndexFrame bodyIndexFrame,
            out Body body, out KinectBuffer depthBuffer, out KinectBuffer bodyIndexBuffer)
        {
            depthBuffer     = null;
            bodyIndexBuffer = null;

            body = getActiveBody(bodyFrame);
            if (body == null)
            {
                return(false);
            }

            depthBuffer = depthFrame.LockImageBuffer();
            var width  = depthFrameDescription.Width;
            var height = depthFrameDescription.Height;

            if (depthBuffer == null ||
                (width * height) != (depthBuffer.Size / this.depthFrameDescription.BytesPerPixel))
            {
                return(false);
            }

            bodyIndexBuffer = bodyIndexFrame.LockImageBuffer();
            if (bodyIndexBuffer == null || bodyIndexBuffer.Size * 2 != depthBuffer.Size)
            {
                depthBuffer.Dispose();
                return(false);
            }
            return(true);
        }
 /// <summary>
 /// Store body index image
 /// </summary>
 /// <param name="bodyIndexFrame">body index frame to be stored</param>
 /// <param name="frameNumber">frame number</param>
 public static void Handle_BodyIndexFrame(BodyIndexFrame bodyIndexFrame, String frameNumber)
 {
     using (Microsoft.Kinect.KinectBuffer bodyIndexBuffer = bodyIndexFrame.LockImageBuffer())
     {
         BitmapSource bitmapSource = BitmapSource.Create(bodyIndexWidth, bodyIndexHeight, 96.0, 96.0,
                                                         PixelFormats.Gray8, null, bodyIndexBuffer.UnderlyingBuffer, (int)bodyIndexBuffer.Size, bodyIndexWidth * 1);
         String bodyIndexPath = FramesAndPaths.GetImageFilePath(FramesAndPaths.FileType.BodyIndexImage, frameNumber);
         bitmapSource.Save(bodyIndexPath + ".jpg", ImageFormat.Jpeg);
     }
     // Release bodyIndexFrame
     bodyIndexFrame.Dispose();
 }
        public void BodyIndexFrameArrival(BodyIndexFrame bif, ref bool frameProcessed, double fps, WriteableBitmap bodyIndexBitmap)
        {
            // the fastest way to process the body index data is to directly access
            // the underlying buffer
            using (Microsoft.Kinect.KinectBuffer bodyIndexBuffer = bif.LockImageBuffer())
            {
                int width  = bif.FrameDescription.Width;
                int height = bif.FrameDescription.Height;
                // verify data and write the color data to the display bitmap
                if (((width * height) == bodyIndexBuffer.Size) &&
                    (width == bodyIndexBitmap.PixelWidth) && (height == bodyIndexBitmap.PixelHeight))
                {
                    ProcessBodyIndexFrameData(bodyIndexBuffer.UnderlyingBuffer, bodyIndexBuffer.Size);
                    frameProcessed = true;
                }

                if (bodyRecording)
                {
                    Bitmap bitmapFrame;
                    try
                    {
                        bitmapFrame = new Bitmap(width, height, System.Drawing.Imaging.PixelFormat.Format8bppIndexed);
                    }
                    catch (Exception e)
                    {
                        Console.WriteLine("Body Exception");
                        Console.WriteLine(e);
                        System.GC.Collect();
                        bitmapFrame = new Bitmap(width, height, System.Drawing.Imaging.PixelFormat.Format8bppIndexed);
                    }
                    UtilityClass.ByteArrayToBitmap(ref bitmapFrame, bodyPixelBuffer, width, height);
                    bBitmap = bitmapFrame;
                    bodyBitmapBuffer.Enqueue(bBitmap);
                    //System.GC.Collect();
                    frameCount++;
                    if (fps < 16.0)
                    {
                        Console.WriteLine("fps drop yaşandı");
                        bodyBitmapBuffer.Enqueue(bBitmap);
                        frameCount++;
                    }
                }
            }
        }
Exemplo n.º 6
0
        private void updateDisplayedBitmap(BodyIndexFrame bif)
        {
            using (Microsoft.Kinect.KinectBuffer bodyIndexBuffer = bif.LockImageBuffer())
            {
                //Verify if the frame is of right size - not sure why but recommended in tutorials
                if (((sensor.getBodyIndexFrameDescription().Width *sensor.getBodyIndexFrameDescription().Height) == bodyIndexBuffer.Size) &&
                    (sensor.getBodyIndexFrameDescription().Width == this.displayedBitmap.PixelWidth) &&
                    (sensor.getBodyIndexFrameDescription().Height == this.displayedBitmap.PixelHeight))
                {
                    uint[] pixalData = processBIF(bodyIndexBuffer.UnderlyingBuffer, bodyIndexBuffer.Size);

                    displayedBitmap.WritePixels(
                        new Int32Rect(0, 0, displayedBitmap.PixelWidth, displayedBitmap.PixelHeight), pixalData,
                        this.displayedBitmap.PixelWidth * BytesPerPixel, 0);

                    bitmap_feed.Source = displayedBitmap;
                }
            }
        }
 /// <summary>
 /// 人体索引帧临帧事件
 /// </summary>
 /// <param name="sender"></param>
 /// <param name="e"></param>
 public void Reader_BodyIndexFrameArrived(Object sender, BodyIndexFrameArrivedEventArgs e)
 {
     using (BodyIndexFrame bodyIndexFrame = e.FrameReference.AcquireFrame())
     {
         if (bodyIndexFrame != null)
         {
             // the fastest way to process the body index data is to directly access
             // the underlying buffer
             using (Microsoft.Kinect.KinectBuffer bodyIndexBuffer = bodyIndexFrame.LockImageBuffer())
             {
                 // verify data and write the color data to the display bitmap
                 if (((this.bodyIndexFrameDescription.Width * this.bodyIndexFrameDescription.Height) == bodyIndexBuffer.Size))
                 {
                     //this.BodyIndexToDepth(bodyIndexBuffer.UnderlyingBuffer, bodyIndexBuffer.Size);
                     this.ProcessBodyIndexFrameData(bodyIndexBuffer.UnderlyingBuffer, bodyIndexBuffer.Size);
                 }
             }
         }
     }
 }
Exemplo n.º 8
0
        /// <summary>
        /// Handles the body index frame data arriving from the sensor
        /// </summary>
        /// <param name="sender">object sending the event</param>
        /// <param name="e">event arguments</param>
        private void Reader_FrameArrived(object sender, BodyIndexFrameArrivedEventArgs e)
        {
            bool bodyIndexFrameProcessed = false;

            using (BodyIndexFrame bodyIndexFrame = e.FrameReference.AcquireFrame())
            {
                if (bodyIndexFrame != null)
                {
                    // the fastest way to process the body index data is to directly access
                    // the underlying buffer
                    using (Microsoft.Kinect.KinectBuffer bodyIndexBuffer = bodyIndexFrame.LockImageBuffer())
                    {
                        // verify data and write the color data to the display bitmap
                        if (((this.bodyIndexFrameDescription.Width * this.bodyIndexFrameDescription.Height) == bodyIndexBuffer.Size) &&
                            (this.bodyIndexFrameDescription.Width == this.bodyIndexBitmap.PixelWidth) && (this.bodyIndexFrameDescription.Height == this.bodyIndexBitmap.PixelHeight))
                        {
                            // checks each pixel to see if it is part of the player or not
                            this.ProcessBodyIndexFrameData(bodyIndexBuffer.UnderlyingBuffer, bodyIndexBuffer.Size);

                            // check if the frame is the same as before or different
                            checkFrame(bodyIndexBuffer.UnderlyingBuffer, bodyIndexBuffer.Size);
                            if (found && !fired)
                            {
                                fired = true;
                                frameNum++;
                                Console.WriteLine("Shot " + frameNum);
                                // fire gun
                                Process proc = new System.Diagnostics.Process();
                                proc.StartInfo.WindowStyle            = System.Diagnostics.ProcessWindowStyle.Hidden;
                                proc.StartInfo.FileName               = "C:/Python27/python.exe";
                                proc.StartInfo.Arguments              = "activateSentry.py";
                                proc.StartInfo.WorkingDirectory       = Environment.GetFolderPath(Environment.SpecialFolder.MyDocuments);
                                proc.StartInfo.UseShellExecute        = false;
                                proc.StartInfo.RedirectStandardOutput = true;
                                proc.Start();
                                while (!proc.StandardOutput.EndOfStream)
                                {
                                    Console.WriteLine(proc.StandardOutput.ReadLine());
                                }
                                Console.WriteLine("Fired" + DateTime.Now);
                                // take photo of victum
                                takePhoto();
                                Console.WriteLine("Photo Taken " + DateTime.Now);
                                // tweet current photo
                                Process proc2 = new System.Diagnostics.Process();
                                proc2.StartInfo.WindowStyle            = System.Diagnostics.ProcessWindowStyle.Hidden;
                                proc2.StartInfo.FileName               = "C:/Python27/python.exe";
                                proc2.StartInfo.Arguments              = "tweetphoto.py";
                                proc2.StartInfo.WorkingDirectory       = Environment.GetFolderPath(Environment.SpecialFolder.MyDocuments);
                                proc2.StartInfo.UseShellExecute        = false;
                                proc2.StartInfo.RedirectStandardOutput = true;
                                proc2.Start();
                                while (!proc2.StandardOutput.EndOfStream)
                                {
                                    Console.WriteLine(proc2.StandardOutput.ReadLine());
                                }
                            }
                            bodyIndexFrameProcessed = true;
                        }
                    }
                }
            }
            //bodyIndexFrameProcessed = false;
            if (bodyIndexFrameProcessed)
            {
                // this displays the new body but for some reason this constantly executes
                this.RenderBodyIndexPixels();
                //Console.WriteLine("body count: " + BodyFrameSource::BodyCount);
            }
        }
        private void Reader_MultiSourceFrameArrived(object sender, MultiSourceFrameArrivedEventArgs e)
        {
            // All frame counter
            this.frameCount++;
            if (this.frameCount % this.framesToCapture != 0)
            {
                return;
            }

            ColorFrame     colorFrame     = null;
            DepthFrame     depthFrame     = null;
            BodyFrame      bodyFrame      = null;
            BodyIndexFrame bodyIndexFrame = null;
            Body           body           = null;
            SkeletonOfBody skel_up        = new SkeletonOfBody(Constants.SKEL_UP_TOTAL_JOINTS);

            try
            {
                var frameReference = e.FrameReference.AcquireFrame();

                colorFrame     = frameReference.ColorFrameReference.AcquireFrame();
                depthFrame     = frameReference.DepthFrameReference.AcquireFrame();
                bodyFrame      = frameReference.BodyFrameReference.AcquireFrame();
                bodyIndexFrame = frameReference.BodyIndexFrameReference.AcquireFrame();

                if (colorFrame == null || depthFrame == null || bodyFrame == null || bodyIndexFrame == null)
                {
                    return;
                }

                //--------------------------------------------
                // Get the color frame
                //--------------------------------------------
                using (KinectBuffer colorBuffer = colorFrame.LockRawImageBuffer())
                {
                    colorFrame.CopyConvertedFrameDataToArray(this.buffColor32, ColorImageFormat.Bgra);
                } //End ColorFrame

                //--------------------------------------------
                // Get the depth frame
                //--------------------------------------------
                using (KinectBuffer depthBuffer = depthFrame.LockImageBuffer())
                {
                    depthFrame.CopyFrameDataToArray(this.buffDepth16);
                    //depthFrame.CopyFrameDataToArray(this.buffDepth16Copy);

                    // Multiplication by 20 only to turn the depth visually more perceptible
                    //int i = 0;
                    //Array.ForEach(this.buffDepth16Copy, (x) => { this.buffDepth16Copy[i++] = (ushort)(x * 20); });
                } //End DepthFrame

                //--------------------------------------------
                // Get the body index frame
                //--------------------------------------------
                using (KinectBuffer bodyIndexBuffer = bodyIndexFrame.LockImageBuffer())
                {
                    bodyIndexFrame.CopyFrameDataToArray(this.buffBodyIndex8);
                }

                //--------------------------------------------
                // Get the body frame
                //--------------------------------------------
                bodyFrame.GetAndRefreshBodyData(this.listBodies);
                //bodyFrame.FloorClipPlane.

                //--------------------------------------------
                // Map the depth frame to it color frame
                //--------------------------------------------
                {
                    Array.Clear(this.buffColorSpacePoints, 0, this.buffColorSpacePoints.Length);
                    Array.Clear(this.buffMapDepthToColor32, 0, this.buffMapDepthToColor32.Length);

                    // Coordinate mapping
                    this.coordinateMapper.MapDepthFrameToColorSpace(this.buffDepth16, this.buffColorSpacePoints);

                    unsafe
                    {
                        fixed(ColorSpacePoint *depthMappedToColorPointsPointer = buffColorSpacePoints)
                        {
                            // Loop over each row and column of the color image
                            // Zero out any pixels that don't correspond to a body index
                            for (int idxDepth = 0; idxDepth < buffColorSpacePoints.Length; ++idxDepth)
                            {
                                float depthMappedToColorX = depthMappedToColorPointsPointer[idxDepth].X;
                                float depthMappedToColorY = depthMappedToColorPointsPointer[idxDepth].Y;

                                // The sentinel value is -inf, -inf, meaning that no depth pixel corresponds to this color pixel.
                                if (!float.IsNegativeInfinity(depthMappedToColorX) &&
                                    !float.IsNegativeInfinity(depthMappedToColorY))
                                {
                                    // Make sure the depth pixel maps to a valid point in color space
                                    int colorX = (int)(depthMappedToColorX + 0.5f);
                                    int colorY = (int)(depthMappedToColorY + 0.5f);

                                    // If the point is not valid, there is no body index there.
                                    if ((colorX >= 0) && (colorX < this.colorImageSize.Width) && (colorY >= 0) && (colorY < this.colorImageSize.Height))
                                    {
                                        int idxColor = (colorY * this.colorImageSize.Width) + colorX;

                                        // If we are tracking a body for the current pixel, save the depth data
                                        if (this.buffBodyIndex8[idxDepth] != 0xff)
                                        {
                                            this.buffMapDepthToColor32[idxDepth * 4]     = this.buffColor32[idxColor * 4];     // B
                                            this.buffMapDepthToColor32[idxDepth * 4 + 1] = this.buffColor32[idxColor * 4 + 1]; // G
                                            this.buffMapDepthToColor32[idxDepth * 4 + 2] = this.buffColor32[idxColor * 4 + 2]; // R
                                        }
                                    }
                                }
                            }
                        }
                    } //End Unsafe
                }     //End Mapping


                //--------------------------------------------
                // Process the face of the default body
                //--------------------------------------------

                // Variable to save the detected face paramenters
                this.faceData = new FaceData(new BoxFace(0, 0, 0, 0), new BoxFace(0, 0, 0, 0));

#if FACE_DETECTION
                // Get the default body
                // Body body = this.listBodies.Where(b => b.IsTracked).FirstOrDefault();
                if (this.faceFrameSource.IsActive)
                {
                    // In our experiment we get the closest body
                    body = Util.GetClosestBody(this.listBodies);

                    if (body != null && body.IsTracked)
                    {
                        // Get the first skeleton
                        skel_up = Util.GetSkeletonUpperBody(this.Mapper, body);

                        // Draw skeleton joints
                        if (this.drawingDepthMarkups)
                        {
                            Util.WriteSkeletonOverFrame(this, VisTypes.Depth, skel_up, 2, ref this.buffMapDepthToColor32);
                            //Util.WriteSkeletonOverFrame(this, VisTypes.Depth, skeleton, 2, ref this.buffDepth16);
                        }

                        // Assign a tracking ID to the face source
                        this.faceFrameSource.TrackingId = body.TrackingId;

                        if (this.faceFrameResults != null)
                        {
                            var boxColor = this.faceFrameResults.FaceBoundingBoxInColorSpace;
                            var boxDepth = this.faceFrameResults.FaceBoundingBoxInInfraredSpace;

                            // If there are face results, then save data
                            // We save in a format of rectangle [x, y, width, height]
                            this.faceData.boxColor = new BoxFace(boxColor.Left, boxColor.Top, (boxColor.Right - boxColor.Left), (boxColor.Bottom - boxColor.Top));
                            this.faceData.boxDepth = new BoxFace(boxDepth.Left, boxDepth.Top, (boxDepth.Right - boxDepth.Left), (boxDepth.Bottom - boxDepth.Top));

                            // Draw the face
                            if (this.drawingDepthMarkups)
                            {
                                Util.WriteFaceOverFrame(this, VisTypes.Depth, faceData.boxDepth, 1, ref this.buffMapDepthToColor32);
                                //Util.WriteFaceOverFrame(this, VisTypes.Depth, faceData.boxDepth, 1, ref this.buffDepth16);
                            } //End Drawing
                        }     //End FaceResult
                    }         //End Body
                }
#endif

                // Update the data handler
                this.frameHandler(
                    this.buffColor32,
                    this.buffDepth16,
                    this.buffBodyIndex8,
                    this.buffMapDepthToColor32,
                    this.listBodies,
                    this.faceData
                    );

                // Recording state ture
                byte[]       _colorData     = null;
                ushort[]     _depthData     = null;
                byte[]       _bodyIndexData = null;
                IList <Body> _bodies        = null;

                //--------------------------------------------
                // Record the data
                //--------------------------------------------

                if (this.stateOfRecording)
                {
                    // 25-09-15
                    // Discard frames where the hand is not corrected tracked (i.e., the hand has a zero coordinate)
                    // To discard failures in hand tracking
                    if (skel_up.jointDepthSpace[(int)JointUpType.HandLeft].X == 0 || skel_up.jointDepthSpace[(int)JointUpType.HandLeft].Y == 0 ||
                        skel_up.jointDepthSpace[(int)JointUpType.HandRight].X == 0 || skel_up.jointDepthSpace[(int)JointUpType.HandRight].Y == 0)
                    {
                        Console.WriteLine("Neglect frame {0}", this.recordedFrames);
                        return;
                    }

                    // Storage data;
                    _colorData     = new byte[this.buffColor32.Length];
                    _depthData     = new ushort[this.buffDepth16.Length];
                    _bodyIndexData = new byte[this.buffBodyIndex8.Length];
                    _bodies        = new Body[this.listBodies.Count];

                    colorFrame.CopyConvertedFrameDataToArray(_colorData, ColorImageFormat.Bgra);
                    depthFrame.CopyFrameDataToArray(_depthData);
                    bodyIndexFrame.CopyFrameDataToArray(_bodyIndexData);
                    bodyFrame.GetAndRefreshBodyData(_bodies);

                    // Increase the counter
                    this.recordedFrames++;

                    this.dataContainer.AddColor        = _colorData;
                    this.dataContainer.AddDepth        = _depthData;
                    this.dataContainer.AddBodyIndex    = _bodyIndexData;
                    this.dataContainer.AddListOfBodies = _bodies;
                    this.dataContainer.AddFaceData     = this.faceData;


                    // If the user only require to save a fixed number of frames
                    if (this.fixedFrames == this.recordedFrames)
                    {
                        this.stateOfRecording = false;
                    }
                }


                // Notice:
                // Array.Copy() --> how many elements to copy
                // Buffer.BlockCopy --> how many of bytes to copy

                // Update Frame Rate
                UpdateGrabberFrameRate();
            }
            finally
            {
                if (this.frameCount > 100000000)
                {
                    this.frameCount = 0;
                }
                if (colorFrame != null)
                {
                    colorFrame.Dispose();
                }
                if (depthFrame != null)
                {
                    depthFrame.Dispose();
                }
                if (bodyFrame != null)
                {
                    bodyFrame.Dispose();
                }
                if (bodyIndexFrame != null)
                {
                    bodyIndexFrame.Dispose();
                }
            }
        }
Exemplo n.º 10
0
        /// <summary>
        /// Handles the depth/color/body index frame data arriving from the sensor
        /// </summary>
        /// <param name="sender">object sending the event</param>
        /// <param name="e">event arguments</param>
        private void Reader_MultiSourceFrameArrived(object sender, MultiSourceFrameArrivedEventArgs e)
        {
            int depthWidth  = 0;
            int depthHeight = 0;

            DepthFrame     depthFrame     = null;
            ColorFrame     colorFrame     = null;
            BodyIndexFrame bodyIndexFrame = null;
            bool           isBitmapLocked = false;

            MultiSourceFrame multiSourceFrame = e.FrameReference.AcquireFrame();

            // If the Frame has expired by the time we process this event, return.
            if (multiSourceFrame == null)
            {
                return;
            }

            // We use a try/finally to ensure that we clean up before we exit the function.
            // This includes calling Dispose on any Frame objects that we may have and unlocking the bitmap back buffer.
            try
            {
                depthFrame     = multiSourceFrame.DepthFrameReference.AcquireFrame();
                colorFrame     = multiSourceFrame.ColorFrameReference.AcquireFrame();
                bodyIndexFrame = multiSourceFrame.BodyIndexFrameReference.AcquireFrame();

                // If any frame has expired by the time we process this event, return.
                // The "finally" statement will Dispose any that are not null.
                if ((depthFrame == null) || (colorFrame == null) || (bodyIndexFrame == null))
                {
                    return;
                }

                // Process Depth
                FrameDescription depthFrameDescription = depthFrame.FrameDescription;

                depthWidth  = depthFrameDescription.Width;
                depthHeight = depthFrameDescription.Height;

                // Access the depth frame data directly via LockImageBuffer to avoid making a copy
                using (KinectBuffer depthFrameData = depthFrame.LockImageBuffer())
                {
                    this.coordinateMapper.MapColorFrameToDepthSpaceUsingIntPtr(
                        depthFrameData.UnderlyingBuffer,
                        depthFrameData.Size,
                        this.colorMappedToDepthPoints);
                }

                // We're done with the DepthFrame
                depthFrame.Dispose();
                depthFrame = null;

                // Process Color

                // Lock the bitmap for writing
                this.bitmap.Lock();
                isBitmapLocked = true;

                colorFrame.CopyConvertedFrameDataToIntPtr(this.bitmap.BackBuffer, this.bitmapBackBufferSize, ColorImageFormat.Bgra);

                // We're done with the ColorFrame
                colorFrame.Dispose();
                colorFrame = null;

                // We'll access the body index data directly to avoid a copy
                using (KinectBuffer bodyIndexData = bodyIndexFrame.LockImageBuffer())
                {
                    unsafe
                    {
                        byte *bodyIndexDataPointer = (byte *)bodyIndexData.UnderlyingBuffer;

                        int colorMappedToDepthPointCount = this.colorMappedToDepthPoints.Length;

                        fixed(DepthSpacePoint *colorMappedToDepthPointsPointer = this.colorMappedToDepthPoints)
                        {
                            // Treat the color data as 4-byte pixels
                            uint *bitmapPixelsPointer = (uint *)this.bitmap.BackBuffer;

                            // Loop over each row and column of the color image
                            // Zero out any pixels that don't correspond to a body index
                            for (int colorIndex = 0; colorIndex < colorMappedToDepthPointCount; ++colorIndex)
                            {
                                float colorMappedToDepthX = colorMappedToDepthPointsPointer[colorIndex].X;
                                float colorMappedToDepthY = colorMappedToDepthPointsPointer[colorIndex].Y;

                                // The sentinel value is -inf, -inf, meaning that no depth pixel corresponds to this color pixel.
                                if (!float.IsNegativeInfinity(colorMappedToDepthX) &&
                                    !float.IsNegativeInfinity(colorMappedToDepthY))
                                {
                                    // Make sure the depth pixel maps to a valid point in color space
                                    int depthX = (int)(colorMappedToDepthX + 0.5f);
                                    int depthY = (int)(colorMappedToDepthY + 0.5f);

                                    // If the point is not valid, there is no body index there.
                                    if ((depthX >= 0) && (depthX < depthWidth) && (depthY >= 0) && (depthY < depthHeight))
                                    {
                                        int depthIndex = (depthY * depthWidth) + depthX;

                                        // If we are tracking a body for the current pixel, do not zero out the pixel
                                        if (bodyIndexDataPointer[depthIndex] != 0xff)
                                        {
                                            continue;
                                        }
                                    }
                                }

                                bitmapPixelsPointer[colorIndex] = 0;
                            }
                        }

                        this.bitmap.AddDirtyRect(new Int32Rect(0, 0, this.bitmap.PixelWidth, this.bitmap.PixelHeight));
                    }
                }
            }
            finally
            {
                if (isBitmapLocked)
                {
                    this.bitmap.Unlock();
                }

                if (depthFrame != null)
                {
                    depthFrame.Dispose();
                }

                if (colorFrame != null)
                {
                    colorFrame.Dispose();
                }

                if (bodyIndexFrame != null)
                {
                    bodyIndexFrame.Dispose();
                }
            }
        }
Exemplo n.º 11
0
        /// <summary>
        /// Handles the depth/color/body index frame data arriving from the sensor
        /// </summary>
        /// <param name="sender">object sending the event</param>
        /// <param name="e">event arguments</param>
        private void Reader_MultiSourceFrameArrived(object sender, MultiSourceFrameArrivedEventArgs e)
        {
            if (this.runningCalibration)
            {
                //Console.WriteLine("runningCalibration");
                if (this.depthFrameCaptured)
                {
                    //Console.WriteLine("depthFrameCaptured");
                    if (this.depthFrameFiltered)
                    {
                        //Console.WriteLine("this.depthFrameFiltered");
                        if (this.depthScreenshotTaken)
                        {
                            //Console.WriteLine("this.depthScreenshotTaken");

                            if (this.horizontalProjectingDone && this.verticalProjectingDone)
                            {
                                this.StatusText = "this.horizontalProjectingDone && this.verticalProjectingDone";
                                if (this.calculatingStarted)
                                {
                                    this.StatusText = "calculatingFinished";
                                }
                                else
                                {
                                    this.StatusText = "calculating";
                                    this.startCalculating();
                                }
                            }
                            else
                            {
                                //this.StatusText = "projecting Patterns";
                                this.writeImageToFirstImageBuffer = true;
                            }
                            //}

                            /*else {
                             *  this.StatusText = "projecting Patterns";
                             *  this.writeImageToFirstImageBuffer = true;
                             * }*/
                        }
                        else
                        {
                            this.StatusText = "making Screenshot of DepthMap";
                            this.makeScreenshotOfDepthMap();
                        }
                    }
                    else
                    {
                        this.StatusText = "filtering Depth";
                        this.filterDepth2(5);
                    }
                }
            }

            int depthWidth  = 0;
            int depthHeight = 0;

            DepthFrame     depthFrame     = null;
            ColorFrame     colorFrame     = null;
            BodyIndexFrame bodyIndexFrame = null;
            bool           isBitmapLocked = false;

            MultiSourceFrame multiSourceFrame = e.FrameReference.AcquireFrame();

            // If the Frame has expired by the time we process this event, return.
            if (multiSourceFrame == null)
            {
                return;
            }

            // We use a try/finally to ensure that we clean up before we exit the function.
            // This includes calling Dispose on any Frame objects that we may have and unlocking the bitmap back buffer.
            try
            {
                depthFrame     = multiSourceFrame.DepthFrameReference.AcquireFrame();
                colorFrame     = multiSourceFrame.ColorFrameReference.AcquireFrame();
                bodyIndexFrame = multiSourceFrame.BodyIndexFrameReference.AcquireFrame();

                // If any frame has expired by the time we process this event, return.
                // The "finally" statement will Dispose any that are not null.
                if ((depthFrame == null) || (colorFrame == null) || (bodyIndexFrame == null))
                {
                    return;
                }

                // Process Depth
                FrameDescription depthFrameDescription = depthFrame.FrameDescription;

                depthWidth  = depthFrameDescription.Width;
                depthHeight = depthFrameDescription.Height;

                // Access the depth frame data directly via LockImageBuffer to avoid making a copy
                using (KinectBuffer depthFrameData = depthFrame.LockImageBuffer())
                {
                    this.coordinateMapper.MapColorFrameToDepthSpaceUsingIntPtr(
                        depthFrameData.UnderlyingBuffer,
                        depthFrameData.Size,
                        this.colorMappedToDepthPoints);
                    if (this.captureDepthFrame)
                    {
                        unsafe {
                            depthFrame.CopyFrameDataToArray(this.globalDepth);
                            //for (int i = 2000; i < 2020;i++ )
                            //{
                            this.minDepthRange = depthFrame.DepthMinReliableDistance;
                            this.maxDepthRange = depthFrame.DepthMaxReliableDistance;
                            //Console.WriteLine("DEPTHFRAME: {0}", frameData[512*424-1]);
                            //}
                        }

                        this.captureDepthFrame  = false;
                        this.depthFrameCaptured = true;
                    }
                }

                // We're done with the DepthFrame
                depthFrame.Dispose();
                depthFrame = null;

                // Process Color

                // Lock the bitmap for writing
                this.bitmap.Lock();
                isBitmapLocked = true;

                colorFrame.CopyConvertedFrameDataToIntPtr(this.bitmap.BackBuffer, this.bitmapBackBufferSize, ColorImageFormat.Bgra);

                if (this.projectingStarted && !this.verticalProjectingDone)
                {
                    Boolean newPattern           = false;
                    bool    timeToTakeScreenshot = false;
                    if (this.frameCounter == 10)
                    {
                        timeToTakeScreenshot = true;
                    }
                    if (this.frameCounter >= 15)
                    {
                        newPattern = true;
                        this.projectionImageCounter++;
                        this.frameCounter = 0;
                    }
                    else
                    {
                        this.frameCounter++;
                    }

                    if (timeToTakeScreenshot)
                    {
                        //int size = this.verticalImages.Count();
                        this.bitmap.Unlock();
                        this.screenshot(this.projectionImageCounter, "horizontal");
                        this.bitmap.Lock();
                        //this.verticalImages[size]
                        timeToTakeScreenshot = false;
                    }

                    if (newPattern)
                    {
                        ProjectablePattern pp = new ProjectablePattern(this.projectorWidth, this.projectorHeight, true, this.projectionImageCounter, this.myProjector);
                        bool success          = pp.projectPattern();
                        if (!success)
                        {
                            this.frameCounter           = 0;
                            this.projectionImageCounter = 0;
                            this.verticalProjectingDone = true;
                        }
                        else
                        {
                            this.horizontalImages.Add(pp);
                        }
                    }
                }



                if (this.projectingStarted && this.verticalProjectingDone && !this.horizontalProjectingDone)
                {
                    Boolean newPattern           = false;
                    bool    timeToTakeScreenshot = false;
                    if (this.frameCounter == 10)
                    {
                        timeToTakeScreenshot = true;
                    }
                    if (this.frameCounter >= 15)
                    {
                        newPattern = true;
                        this.projectionImageCounter++;
                        this.frameCounter = 0;
                    }
                    else
                    {
                        this.frameCounter++;
                    }

                    if (timeToTakeScreenshot)
                    {
                        //int size = this.verticalImages.Count();
                        this.bitmap.Unlock();
                        this.screenshot(this.projectionImageCounter, "vertical");
                        this.bitmap.Lock();
                        //this.verticalImages[size]
                        timeToTakeScreenshot = false;
                    }

                    if (newPattern)
                    {
                        ProjectablePattern pp = new ProjectablePattern(this.projectorWidth, this.projectorHeight, false, this.projectionImageCounter, this.myProjector);
                        bool success          = pp.projectPattern();
                        if (!success)
                        {
                            this.horizontalProjectingDone = true;
                            this.projectButton.IsEnabled  = false;
                        }
                        else
                        {
                            this.verticalImages.Add(pp);
                        }
                    }
                }


                if (this.writeImageToFirstImageBuffer)
                {
                    colorFrame.CopyConvertedFrameDataToIntPtr(this.firstImage.BackBuffer, this.bitmapBackBufferSize, ColorImageFormat.Bgra);
                    this.writeImageToFirstImageBuffer = false;
                    this.projectingStarted            = true;
                }

                // We're done with the ColorFrame
                colorFrame.Dispose();
                colorFrame = null;

                // We'll access the body index data directly to avoid a copy
                using (KinectBuffer bodyIndexData = bodyIndexFrame.LockImageBuffer())
                {
                    unsafe
                    {
                        byte *bodyIndexDataPointer = (byte *)bodyIndexData.UnderlyingBuffer;

                        int colorMappedToDepthPointCount = this.colorMappedToDepthPoints.Length;

                        fixed(DepthSpacePoint *colorMappedToDepthPointsPointer = this.colorMappedToDepthPoints)
                        {
                            // Treat the color data as 4-byte pixels
                            uint *bitmapPixelsPointer     = (uint *)this.bitmap.BackBuffer;
                            uint *firstImagePixelsPointer = (uint *)this.firstImage.BackBuffer;

                            // Loop over each row and column of the color image
                            // Zero out any pixels that don't correspond to a body index
                            for (int colorIndex = 0; colorIndex < colorMappedToDepthPointCount; ++colorIndex)
                            {
                                float colorMappedToDepthX = colorMappedToDepthPointsPointer[colorIndex].X;
                                float colorMappedToDepthY = colorMappedToDepthPointsPointer[colorIndex].Y;

                                if (colorIndex == 600)
                                {
                                    // The sentinel value is -inf, -inf, meaning that no depth pixel corresponds to this color pixel.
                                    if (!float.IsNegativeInfinity(colorMappedToDepthX) &&
                                        !float.IsNegativeInfinity(colorMappedToDepthY))
                                    {
                                        /*Console.WriteLine("colorMappedToDepthX: {0}, colorMappedToDepthY {1} ,colorIndex: {2}", colorMappedToDepthX, colorMappedToDepthY, colorIndex);*/
                                        // Make sure the depth pixel maps to a valid point in color space
                                        int depthX = (int)(colorMappedToDepthX + 0.5f);
                                        int depthY = (int)(colorMappedToDepthY + 0.5f);

                                        // If the point is not valid, there is no body index there.
                                        if ((depthX >= 0) && (depthX < depthWidth) && (depthY >= 0) && (depthY < depthHeight))
                                        {
                                            int depthIndex = (depthY * depthWidth) + depthX;

                                            // If we are tracking a body for the current pixel, do not zero out the pixel
                                            if (bodyIndexDataPointer[depthIndex] != 0xff)
                                            {
                                                continue;
                                            }
                                        }
                                    }
                                }//(colorIndex<200)

                                //bitmapPixelsPointer[colorIndex] = 0;
                            }
                        }

                        this.bitmap.AddDirtyRect(new Int32Rect(0, 0, this.bitmap.PixelWidth, this.bitmap.PixelHeight));
                    }
                }
            }
            finally
            {
                if (isBitmapLocked)
                {
                    this.bitmap.Unlock();
                }

                if (depthFrame != null)
                {
                    depthFrame.Dispose();
                }

                if (colorFrame != null)
                {
                    colorFrame.Dispose();
                }

                if (bodyIndexFrame != null)
                {
                    bodyIndexFrame.Dispose();
                }
            }
        }
        /// <summary>
        /// Handles the depth/color/body index frame data arriving from the sensor.
        /// </summary>
        /// <param name="sender">object sending the event</param>
        /// <param name="e">event arguments</param>
        private void Reader_MultiSourceFrameArrived(object sender, MultiSourceFrameArrivedEventArgs e)
        {
            int depthWidth  = 0;
            int depthHeight = 0;

            DepthFrame depthFrame     = null;
            IBuffer    depthFrameData = null;

            ColorFrame colorFrame = null;

            BodyIndexFrame    bodyIndexFrame      = null;
            IBuffer           bodyIndexFrameData  = null;
            IBufferByteAccess bodyIndexByteAccess = null;

            MultiSourceFrame multiSourceFrame = e.FrameReference.AcquireFrame();

            // If the Frame has expired by the time we process this event, return.
            if (multiSourceFrame == null)
            {
                return;
            }

            // We use a try/finally to ensure that we clean up before we exit the function.
            // This includes calling Dispose on any Frame objects that we may have and unlocking the bitmap back buffer.
            try
            {
                depthFrame     = multiSourceFrame.DepthFrameReference.AcquireFrame();
                colorFrame     = multiSourceFrame.ColorFrameReference.AcquireFrame();
                bodyIndexFrame = multiSourceFrame.BodyIndexFrameReference.AcquireFrame();

                // If any frame has expired by the time we process this event, return.
                // The "finally" statement will Dispose any that are not null.
                if ((depthFrame == null) || (colorFrame == null) || (bodyIndexFrame == null))
                {
                    return;
                }

                // Process Depth
                FrameDescription depthFrameDescription = depthFrame.FrameDescription;

                depthWidth  = depthFrameDescription.Width;
                depthHeight = depthFrameDescription.Height;

                // Access the depth frame data directly via LockImageBuffer to avoid making a copy
                depthFrameData = depthFrame.LockImageBuffer();

                this.coordinateMapper.MapColorFrameToDepthSpaceUsingIBuffer(depthFrameData, this.colorMappedToDepthPoints);

                // We're done with the DepthFrame
                depthFrame.Dispose();
                depthFrame = null;

                // We must force a release of the IBuffer in order to ensure that we have dropped all references to it.
                System.Runtime.InteropServices.Marshal.ReleaseComObject(depthFrameData);
                depthFrameData = null;

                // Process Color
                colorFrame.CopyConvertedFrameDataToBuffer(this.bitmap.PixelBuffer, ColorImageFormat.Bgra);

                // We're done with the ColorFrame
                colorFrame.Dispose();
                colorFrame = null;

                FrameDescription bodyIndexFrameDescription = bodyIndexFrame.FrameDescription;

                // Access the body index frame data directly via LockImageBuffer to avoid making a copy
                bodyIndexFrameData = bodyIndexFrame.LockImageBuffer();

                int colorMappedToDepthPointCount = this.colorMappedToDepthPoints.Length;

                unsafe
                {
                    bodyIndexByteAccess = (IBufferByteAccess)bodyIndexFrameData;
                    byte *bodyIndexBytes = null;
                    bodyIndexByteAccess.Buffer(out bodyIndexBytes);

                    fixed(DepthSpacePoint *colorMappedToDepthPointsPointer = this.colorMappedToDepthPoints)
                    {
                        IBufferByteAccess bitmapBackBufferByteAccess = (IBufferByteAccess)this.bitmap.PixelBuffer;

                        byte *bitmapBackBufferBytes = null;

                        bitmapBackBufferByteAccess.Buffer(out bitmapBackBufferBytes);

                        // Treat the color data as 4-byte pixels
                        uint *bitmapPixelsPointer = (uint *)bitmapBackBufferBytes;

                        // Loop over each row and column of the color image
                        // Zero out any pixels that don't correspond to a body index
                        for (int colorIndex = 0; colorIndex < colorMappedToDepthPointCount; ++colorIndex)
                        {
                            float colorMappedToDepthX = colorMappedToDepthPointsPointer[colorIndex].X;
                            float colorMappedToDepthY = colorMappedToDepthPointsPointer[colorIndex].Y;

                            // The sentinel value is -inf, -inf, meaning that no depth pixel corresponds to this color pixel.
                            if (!float.IsNegativeInfinity(colorMappedToDepthX) &&
                                !float.IsNegativeInfinity(colorMappedToDepthY))
                            {
                                // Make sure the depth pixel maps to a valid point in color space
                                int depthX = (int)(colorMappedToDepthX + 0.5f);
                                int depthY = (int)(colorMappedToDepthY + 0.5f);

                                // If the point is not valid, there is no body index there.
                                if ((depthX >= 0) && (depthX < depthWidth) && (depthY >= 0) && (depthY < depthHeight))
                                {
                                    int depthIndex = (depthY * depthWidth) + depthX;

                                    // If we are tracking a body for the current pixel, do not zero out the pixel
                                    if (bodyIndexBytes[depthIndex] != 0xff)
                                    {
                                        continue;
                                    }
                                }
                            }

                            bitmapPixelsPointer[colorIndex] = 0;
                        }
                    }

                    this.bitmap.Invalidate();
                }
            }
            finally
            {
                if (depthFrame != null)
                {
                    depthFrame.Dispose();
                }

                if (depthFrameData != null)
                {
                    // We must force a release of the IBuffer in order to ensure that we have dropped all references to it.
                    System.Runtime.InteropServices.Marshal.ReleaseComObject(depthFrameData);
                }

                if (colorFrame != null)
                {
                    colorFrame.Dispose();
                }

                if (bodyIndexFrame != null)
                {
                    bodyIndexFrame.Dispose();
                }

                if (bodyIndexFrameData != null)
                {
                    // We must force a release of the IBuffer in order to ensure that we have dropped all references to it.
                    System.Runtime.InteropServices.Marshal.ReleaseComObject(bodyIndexFrameData);
                }

                if (bodyIndexByteAccess != null)
                {
                    // We must force a release of the IBuffer in order to ensure that we have dropped all references to it.
                    System.Runtime.InteropServices.Marshal.ReleaseComObject(bodyIndexByteAccess);
                }
            }
        }
Exemplo n.º 13
0
        /// <summary>
        /// 多格式数据流的处理事件,暂时顺序处理,以后为提高性能,可以将三个格式的数据流并发处理。
        /// </summary>
        /// <param name="sender"></param>
        /// <param name="e"></param>
        void Reader_MultiSourceFrameArrived(object sender, MultiSourceFrameArrivedEventArgs e)
        {
            MultiSourceFrame multiSourceFrame        = e.FrameReference.AcquireFrame();
            bool             bodyIndexFrameProcessed = false;

            // 处理BodyIndex数据流
            using (BodyIndexFrame bodyIndexFrame = multiSourceFrame.BodyIndexFrameReference.AcquireFrame())
            {
                if (bodyIndexFrame != null)
                {
                    // the fastest way to process the body index data is to directly access
                    // the underlying buffer
                    using (Microsoft.Kinect.KinectBuffer bodyIndexBuffer = bodyIndexFrame.LockImageBuffer())
                    {
                        // verify data and write the color data to the display bitmap
                        if (((this.bodyIndexFrameDescription.Width * this.bodyIndexFrameDescription.Height) == bodyIndexBuffer.Size) &&
                            (this.bodyIndexFrameDescription.Width == this.bodyIndexBitmap.PixelWidth) && (this.bodyIndexFrameDescription.Height == this.bodyIndexBitmap.PixelHeight))
                        {
                            this.ProcessBodyIndexFrameData(bodyIndexBuffer.UnderlyingBuffer, bodyIndexBuffer.Size);
                            this.bodyIndexBytes = new byte[bodyIndexBuffer.Size];
                            Marshal.Copy(bodyIndexBuffer.UnderlyingBuffer, this.bodyIndexBytes, 0, (int)bodyIndexBuffer.Size);
                            bodyIndexFrameProcessed = true;
                        }
                    }
                }
            }

            if (bodyIndexFrameProcessed)
            {
                this.RenderBodyIndexPixels();
            }

            // 处理颜色图像
            using (ColorFrame colorFrame = multiSourceFrame.ColorFrameReference.AcquireFrame())
            {
                if (colorFrame != null)
                {
                    FrameDescription colorFrameDescription = colorFrame.FrameDescription;

                    using (KinectBuffer colorBuffer = colorFrame.LockRawImageBuffer())
                    {
                        this.colorBitmap.Lock();

                        // verify data and write the new color frame data to the display bitmap
                        if ((colorFrameDescription.Width == this.colorBitmap.PixelWidth) && (colorFrameDescription.Height == this.colorBitmap.PixelHeight))
                        {
                            colorFrame.CopyConvertedFrameDataToIntPtr(
                                this.colorBitmap.BackBuffer,
                                (uint)(colorFrameDescription.Width * colorFrameDescription.Height * 4),
                                ColorImageFormat.Bgra);

                            this.colorBitmap.AddDirtyRect(new Int32Rect(0, 0, this.colorBitmap.PixelWidth, this.colorBitmap.PixelHeight));
                        }

                        this.colorBitmap.Unlock();
                    }
                }
            }

            // 处理Body数据,包含骨骼信息
            using (BodyFrame bodyFrame = multiSourceFrame.BodyFrameReference.AcquireFrame())
            {
                if (bodyFrame != null)
                {
                    if (this.bodies == null)
                    {
                        this.bodies = new Body[bodyFrame.BodyCount];
                    }
                    bodyFrame.GetAndRefreshBodyData(this.bodies);
                }
            }

            // 处理深度图像
            using (DepthFrame depthFrame = multiSourceFrame.DepthFrameReference.AcquireFrame())
            {
                if (depthFrame != null)
                {
                    depthFrameDescription = depthFrame.FrameDescription;
                    using (KinectBuffer depthBuffer = depthFrame.LockImageBuffer())
                    {
                        Marshal.Copy(depthBuffer.UnderlyingBuffer, this.depthBytes, 0, (int)depthBuffer.Size);
                    }
                }
            }
        }
Exemplo n.º 14
0
        /// <summary>
        /// Handles the body index frame data arriving from the sensor
        /// </summary>
        /// <param name="sender">object sending the event</param>
        /// <param name="e">event arguments</param>
        private void Reader_FrameArrived(object sender, BodyIndexFrameArrivedEventArgs e)
        {
            if (frameCount >= min_ && frameCount < max_)
            {
                bool bodyIndexFrameProcessed = false;

                using (BodyIndexFrame bodyIndexFrame = e.FrameReference.AcquireFrame())
                {
                    if (bodyIndexFrame != null)
                    {
                        // the fastest way to process the body index data is to directly access
                        // the underlying buffer
                        using (Microsoft.Kinect.KinectBuffer bodyIndexBuffer = bodyIndexFrame.LockImageBuffer())
                        {
                            // verify data and write the color data to the display bitmap
                            if (((this.bodyIndexFrameDescription.Width * this.bodyIndexFrameDescription.Height) == bodyIndexBuffer.Size) &&
                                (this.bodyIndexFrameDescription.Width == this.bodyIndexBitmap.PixelWidth) && (this.bodyIndexFrameDescription.Height == this.bodyIndexBitmap.PixelHeight))
                            {
                                this.ProcessBodyIndexFrameData(bodyIndexBuffer.UnderlyingBuffer, bodyIndexBuffer.Size);
                                bodyIndexFrameProcessed = true;
                            }
                        }
                    }
                }

                if (bodyIndexFrameProcessed)
                {
                    this.RenderBodyIndexPixels();
                    if (this.bodyIndexBitmap != null)
                    {
                        // create a png bitmap encoder which knows how to save a .png file
                        BitmapEncoder encoder = new PngBitmapEncoder();

                        // create frame from the writable bitmap and add to encoder
                        encoder.Frames.Add(BitmapFrame.Create(this.bodyIndexBitmap));

                        //                    string time = System.DateTime.UtcNow.ToString("hh'-'mm'-'ss", CultureInfo.CurrentUICulture.DateTimeFormat);

                        //                    string myPhotos = Environment.GetFolderPath(Environment.SpecialFolder.MyPictures);

                        //                    string mycustompath = @"G:\01\bodyindex_data\";

                        string path = Path.Combine(path_ + @"/bodyIndex" + frameCount.ToString() + ".png");

                        // write the new file to disk
                        try
                        {
                            // FileStream is IDisposable
                            using (FileStream fs = new FileStream(path, FileMode.Create))
                            {
                                encoder.Save(fs);
                            }

                            //                        this.StatusText = string.Format(CultureInfo.CurrentCulture, Properties.Resources.SavedScreenshotStatusTextFormat, path);
                        }
                        catch (IOException)
                        {
                            //                        this.StatusText = string.Format(CultureInfo.CurrentCulture, Properties.Resources.FailedScreenshotStatusTextFormat, path);
                        }
                    }
                    Console.WriteLine("I m here " + frameCount.ToString());
                    frameCount++;
                }
            }
            else
            {
                frameCount++;
                return;
            }
        }
Exemplo n.º 15
0
 public IImageData GetData()
 {
     return(new KinectBufferImageData(frame.FrameDescription, frame.LockImageBuffer()));
 }
Exemplo n.º 16
0
        public void Reader_MultiSourceFrameArrived(object sender, MultiSourceFrameArrivedEventArgs e)
        {
            int depthWidth  = 0;
            int depthHeight = 0;

            DepthFrame     depthFrame     = null;
            ColorFrame     colorFrame     = null;
            BodyIndexFrame bodyIndexFrame = null;
            bool           isBitmapLocked = false;

            //bool multiSourceFrameProcessed = false;
            //bool colorFrameProcessed = false;
            //bool depthFrameProcessed = false;
            //bool bodyIndexFrameProcessed = false;

            MultiSourceFrame multiSourceFrame = e.FrameReference.AcquireFrame();

            // If the Frame has expired by the time we process this event, return.
            if (multiSourceFrame == null)
            {
                return;
            }

            try
            {
                depthFrame     = multiSourceFrame.DepthFrameReference.AcquireFrame();
                colorFrame     = multiSourceFrame.ColorFrameReference.AcquireFrame();
                bodyIndexFrame = multiSourceFrame.BodyIndexFrameReference.AcquireFrame();

                // If any frame has expired by the time we process this event, return.
                // The "finally" statement will Dispose any that are not null.
                if ((depthFrame == null) || (colorFrame == null) || (bodyIndexFrame == null))
                {
                    return;
                }

                // Process Depth
                FrameDescription depthFrameDescription = depthFrame.FrameDescription;

                depthWidth  = depthFrameDescription.Width;
                depthHeight = depthFrameDescription.Height;

                // Access the depth frame data directly via LockImageBuffer to avoid making a copy
                using (KinectBuffer depthFrameData = depthFrame.LockImageBuffer())
                {
                    this.coordinateMapper.MapColorFrameToDepthSpaceUsingIntPtr(
                        depthFrameData.UnderlyingBuffer,
                        depthFrameData.Size,
                        this.colorMappedToDepthPoints);
                }

                // We're done with the DepthFrame
                depthFrame.Dispose();
                depthFrame = null;

                // Process Color

                // Lock the bitmap for writing
                this.bitmapBody.Lock();
                isBitmapLocked = true;

                colorFrame.CopyConvertedFrameDataToIntPtr(this.bitmapBody.BackBuffer, this.bitmapBackBufferSize, ColorImageFormat.Bgra);

                // We're done with the ColorFrame
                colorFrame.Dispose();
                colorFrame = null;

                // We'll access the body index data directly to avoid a copy
                using (KinectBuffer bodyIndexData = bodyIndexFrame.LockImageBuffer())
                {
                    unsafe
                    {
                        byte *bodyIndexDataPointer = (byte *)bodyIndexData.UnderlyingBuffer;

                        int colorMappedToDepthPointCount = this.colorMappedToDepthPoints.Length;

                        fixed(DepthSpacePoint *colorMappedToDepthPointsPointer = this.colorMappedToDepthPoints)
                        {
                            // Treat the color data as 4-byte pixels
                            uint *bitmapPixelsPointer = (uint *)this.bitmapBody.BackBuffer;

                            // Loop over each row and column of the color image
                            // Zero out any pixels that don't correspond to a body index
                            for (int colorIndex = 0; colorIndex < colorMappedToDepthPointCount; ++colorIndex)
                            {
                                float colorMappedToDepthX = colorMappedToDepthPointsPointer[colorIndex].X;
                                float colorMappedToDepthY = colorMappedToDepthPointsPointer[colorIndex].Y;

                                // The sentinel value is -inf, -inf, meaning that no depth pixel corresponds to this color pixel.
                                if (!float.IsNegativeInfinity(colorMappedToDepthX) &&
                                    !float.IsNegativeInfinity(colorMappedToDepthY))
                                {
                                    // Make sure the depth pixel maps to a valid point in color space
                                    int depthX = (int)(colorMappedToDepthX + 0.5f);
                                    int depthY = (int)(colorMappedToDepthY + 0.5f);

                                    // If the point is not valid, there is no body index there.
                                    if ((depthX >= 0) && (depthX < depthWidth) && (depthY >= 0) && (depthY < depthHeight))
                                    {
                                        int depthIndex = (depthY * depthWidth) + depthX;

                                        // If we are tracking a body for the current pixel, do not zero out the pixel
                                        if (bodyIndexDataPointer[depthIndex] != 0xff)
                                        {
                                            continue;
                                        }
                                    }
                                }

                                bitmapPixelsPointer[colorIndex] = 0;
                            }
                        }

                        this.bitmapBody.AddDirtyRect(new Int32Rect(0, 0, this.bitmapBody.PixelWidth, this.bitmapBody.PixelHeight));
                    }
                }
            }
            finally
            {
                if (isBitmapLocked)
                {
                    this.bitmapBody.Unlock();
                }

                if (depthFrame != null)
                {
                    depthFrame.Dispose();
                }

                if (colorFrame != null)
                {
                    colorFrame.Dispose();
                }

                if (bodyIndexFrame != null)
                {
                    bodyIndexFrame.Dispose();
                }
            }
            kinectImage.Source = bitmapBody;
            //  kinectImage.Source = bitmapBody;

            //if (multiSourceFrame != null)
            //{
            //    // Frame Acquisition should always occur first when using multiSourceFrameReader
            //    using (DepthFrame depthFrame = multiSourceFrame.DepthFrameReference.AcquireFrame())
            //    {
            //        if (depthFrame != null)
            //        {
            //            FrameDescription depthFrameDescription = depthFrame.FrameDescription;
            //            depthWidth = depthFrameDescription.Width;
            //            depthHeight = depthFrameDescription.Height;

            //            if ((depthWidth * depthHeight) == this.depthFrameData.Length)
            //            {
            //                depthFrame.CopyFrameDataToArray(this.depthFrameData);
            //                depthFrameProcessed = true;
            //            }
            //        }
            //    }

            //    using (ColorFrame colorFrame = multiSourceFrame.ColorFrameReference.AcquireFrame())
            //    {
            //        if (colorFrame != null)
            //        {
            //            FrameDescription colorFrameDescription = colorFrame.FrameDescription;

            //            if ((colorFrameDescription.Width * colorFrameDescription.Height * this.bytesPerPixel) == this.colorFrameData.Length)
            //            {
            //                if (colorFrame.RawColorImageFormat == ColorImageFormat.Bgra)
            //                {
            //                    colorFrame.CopyRawFrameDataToArray(this.colorFrameData);
            //                }
            //                else
            //                {
            //                    colorFrame.CopyConvertedFrameDataToArray(this.colorFrameData, ColorImageFormat.Bgra);
            //                }

            //                colorFrameProcessed = true;
            //            }
            //        }
            //    }

            //    using (BodyIndexFrame bodyIndexFrame = multiSourceFrame.BodyIndexFrameReference.AcquireFrame())
            //    {
            //        if (bodyIndexFrame != null)
            //        {
            //            FrameDescription bodyIndexFrameDescription = bodyIndexFrame.FrameDescription;

            //            if ((bodyIndexFrameDescription.Width * bodyIndexFrameDescription.Height) == this.bodyIndexFrameData.Length)
            //            {
            //                bodyIndexFrame.CopyFrameDataToArray(this.bodyIndexFrameData);
            //                bodyIndexFrameProcessed = true;
            //            }
            //        }

            //        multiSourceFrameProcessed = true;
            //    }
            //}

            //// we got all frames
            //if (multiSourceFrameProcessed && depthFrameProcessed && colorFrameProcessed && bodyIndexFrameProcessed)
            //{
            //    this.coordinateMapper.MapColorFrameToDepthSpace(this.depthFrameData, this.depthPoints);

            //    Array.Clear(this.displayPixels, 0, this.displayPixels.Length);

            //    // loop over each row and column of the depth
            //    for (int colorIndex = 0; colorIndex < this.depthPoints.Length; ++colorIndex)
            //    {
            //        DepthSpacePoint depthPoint = this.depthPoints[colorIndex];

            //        if (!float.IsNegativeInfinity(depthPoint.X) && !float.IsNegativeInfinity(depthPoint.Y))
            //        {
            //            // make sure the depth pixel maps to a valid point in color space
            //            int depthX = (int)(depthPoint.X + 0.5f);
            //            int depthY = (int)(depthPoint.Y + 0.5f);

            //            if ((depthX >= 0) && (depthX < depthWidth) && (depthY >= 0) && (depthY < depthHeight))
            //            {
            //                int depthIndex = (depthY * depthWidth) + depthX;
            //                byte player = this.bodyIndexFrameData[depthIndex];

            //                // if we're tracking a player for the current pixel, sets its color and alpha to full
            //                if (player != 0xff)
            //                {
            //                    // set source for copy to the color pixel
            //                    int sourceIndex = colorIndex * this.bytesPerPixel;

            //                    // write out blue byte
            //                    this.displayPixels[sourceIndex] = this.colorFrameData[sourceIndex++];

            //                    // write out green byte
            //                    this.displayPixels[sourceIndex] = this.colorFrameData[sourceIndex++];

            //                    // write out red byte
            //                    this.displayPixels[sourceIndex] = this.colorFrameData[sourceIndex++];

            //                    // write out alpha byte
            //                    this.displayPixels[sourceIndex] = 0xff;
            //                }
            //            }
            //        }
            //    }

            //    this.RenderColorPixels();
            //}
        }
        public void ProcessBackgroundOld(DepthFrame depthFrame, ColorFrame colorFrame, BodyIndexFrame bodyIndexFrame)
        {
            // Process Depth
            var depthWidth  = _displayWidth;
            var depthHeight = _displayHeight;

            // Access the depth frame data directly via LockImageBuffer to avoid making a copy
            using (var depthFrameData = depthFrame.LockImageBuffer())
            {
                _coordinateMapper.MapColorFrameToDepthSpaceUsingIntPtr(
                    depthFrameData.UnderlyingBuffer,
                    depthFrameData.Size,
                    _colorMappedToDepthPoints);
            }

            // We're done with the DepthFrame
            depthFrame.Dispose();

            // Lock the bitmap for writing
            _bitmap.Lock();
            _isBitmapLocked = true;

            colorFrame.CopyConvertedFrameDataToIntPtr(_bitmap.BackBuffer, _bitmapBackBufferSize, ColorImageFormat.Bgra);

            // We're done with the ColorFrame
            colorFrame.Dispose();

            // We'll access the body index data directly to avoid a copy
            using (var bodyIndexData = bodyIndexFrame.LockImageBuffer())
            {
                unsafe
                {
                    var bodyIndexDataPointer = (byte *)bodyIndexData.UnderlyingBuffer;

                    var colorMappedToDepthPointCount = _colorMappedToDepthPoints.Length;

                    fixed(DepthSpacePoint *colorMappedToDepthPointsPointer = _colorMappedToDepthPoints)
                    {
                        // Treat the color data as 4-byte pixels
                        var bitmapPixelsPointer = (uint *)_bitmap.BackBuffer;

                        // Loop over each row and column of the color image
                        // Zero out any pixels that don't correspond to a body index
                        for (var colorIndex = 0; colorIndex < colorMappedToDepthPointCount; ++colorIndex)
                        {
                            var colorMappedToDepthX = colorMappedToDepthPointsPointer[colorIndex].X;
                            var colorMappedToDepthY = colorMappedToDepthPointsPointer[colorIndex].Y;

                            // The sentinel value is -inf, -inf, meaning that no depth pixel corresponds to this color pixel.
                            if (!float.IsNegativeInfinity(colorMappedToDepthX) &&
                                !float.IsNegativeInfinity(colorMappedToDepthY))
                            {
                                // Make sure the depth pixel maps to a valid point in color space
                                var depthX = (int)(colorMappedToDepthX);
                                var depthY = (int)(colorMappedToDepthY);

                                // If the point is not valid, there is no body index there.
                                if ((depthX >= 0) && (depthX < depthWidth) && (depthY >= 0) && (depthY < depthHeight))
                                {
                                    var depthIndex = (depthY * depthWidth) + depthX;

                                    // If we are tracking a body for the current pixel, do not zero out the pixel
                                    if (bodyIndexDataPointer[depthIndex] != 0xff)
                                    {
                                        continue;
                                    }
                                }
                            }

                            bitmapPixelsPointer[colorIndex] = 0;
                        }
                    }

                    _bitmap.AddDirtyRect(new Int32Rect(0, 0, _bitmap.PixelWidth, _bitmap.PixelHeight));
                }
            }
        }
Exemplo n.º 18
0
        /// <summary>
        /// Handles the depth/color/body index frame data arriving from the sensor
        /// </summary>
        /// <param name="sender">object sending the event</param>
        /// <param name="e">event arguments</param>
        private void Reader_MultiSourceFrameArrived(object sender, MultiSourceFrameArrivedEventArgs e)
        {
            int depthWidth  = 0;
            int depthHeight = 0;

            DepthFrame     depthFrame     = null;
            ColorFrame     colorFrame     = null;
            BodyIndexFrame bodyIndexFrame = null;
            bool           isBitmapLocked = false;

            MultiSourceFrame multiSourceFrame = e.FrameReference.AcquireFrame();

            // If the Frame has expired by the time we process this event, return.
            if (multiSourceFrame == null)
            {
                return;
            }

            // We use a try/finally to ensure that we clean up before we exit the function.
            // This includes calling Dispose on any Frame objects that we may have and unlocking the bitmap back buffer.
            try
            {
                depthFrame     = multiSourceFrame.DepthFrameReference.AcquireFrame();
                colorFrame     = multiSourceFrame.ColorFrameReference.AcquireFrame();
                bodyIndexFrame = multiSourceFrame.BodyIndexFrameReference.AcquireFrame();

                // If any frame has expired by the time we process this event, return.
                // The "finally" statement will Dispose any that are not null.
                if ((depthFrame == null) || (colorFrame == null) || (bodyIndexFrame == null))
                {
                    return;
                }

                // Process Depth
                FrameDescription depthFrameDescription = depthFrame.FrameDescription;

                depthWidth  = depthFrameDescription.Width;
                depthHeight = depthFrameDescription.Height;

                if (!showAverage)
                {
                    // Access the depth frame data directly via LockImageBuffer to avoid making a copy
                    using (KinectBuffer depthFrameData = depthFrame.LockImageBuffer())
                    {
                        //Map depth data to color space
                        this.coordinateMapper.MapColorFrameToDepthSpaceUsingIntPtr(
                            depthFrameData.UnderlyingBuffer,
                            depthFrameData.Size,
                            this.colorMappedToDepthPoints);
                    }
                }

                // We're done with the DepthFrame
                depthFrame.Dispose();
                depthFrame = null;

                // Process Color

                if (!showAverage)
                {
                    // Lock the bitmap for writing
                    this.bitmap.Lock();
                    isBitmapLocked = true;

                    colorFrame.CopyConvertedFrameDataToIntPtr(this.bitmap.BackBuffer, this.bitmapBackBufferSize, ColorImageFormat.Bgra);

                    // We're done with the ColorFrame
                    colorFrame.Dispose();
                    colorFrame = null;
                }

                // We'll access the body index data directly to avoid a copy
                using (KinectBuffer bodyIndexData = bodyIndexFrame.LockImageBuffer())
                {
                    unsafe
                    {
                        byte *bodyIndexDataPointer = (byte *)bodyIndexData.UnderlyingBuffer;

                        currentFrame++;

                        if (currentFrame % 10 == 0)
                        {
                            bool bodyFound = false;

                            //Story body data in a temporary array, where 1 corresponds to a location with body in it and 0 corresponds to a location without a body in it
                            for (int i = 0; i < (int)bodyIndexData.Size; ++i)
                            {
                                bool isBodyPixel = bodyIndexDataPointer[i] != 0xff;
                                if (isBodyPixel)
                                {
                                    bodyFound     = true;
                                    tempPixels[i] = 1;
                                }
                                else
                                {
                                    tempPixels[i] = 0;
                                }
                            }
                            if (bodyFound)
                            {
                                //We need to compute non normalized body intensities first - per pixel average over the entire lifespan of the program
                                float greatestValue = 0;
                                for (int i = 0; i < (int)bodyIndexData.Size; ++i)
                                {
                                    nonNormalizeAveragePixels[i] = (nonNormalizeAveragePixels[i] * (currentFrame - 1) + tempPixels[i]) / currentFrame;
                                    if (greatestValue < nonNormalizeAveragePixels[i])
                                    {
                                        greatestValue = nonNormalizeAveragePixels[i];
                                    }
                                }
                                //Now we will create a normalized (0-255) image
                                for (int i = 0; i < (int)bodyIndexData.Size; ++i)
                                {
                                    averagePixels[i] = (uint)(nonNormalizeAveragePixels[i] / greatestValue * 0xFF);
                                }

                                if (showAverage)
                                {
                                    this.humanAverageBitmap.WritePixels(
                                        new Int32Rect(0, 0, this.humanAverageBitmap.PixelWidth, this.humanAverageBitmap.PixelHeight),
                                        this.averagePixels,
                                        this.humanAverageBitmap.PixelWidth * (int)bytesPerPixel,
                                        0);
                                }
                            }
                        }

                        if (showAverage)
                        {
                            return;
                        }
                        int colorMappedToDepthPointCount = this.colorMappedToDepthPoints.Length;

                        fixed(DepthSpacePoint *colorMappedToDepthPointsPointer = this.colorMappedToDepthPoints)
                        {
                            // Treat the color data as 4-byte pixels
                            uint *bitmapPixelsPointer = (uint *)this.bitmap.BackBuffer;

                            // Loop over each row and column of the color image
                            // Zero out any pixels that don't correspond to a body index
                            for (int colorIndex = 0; colorIndex < colorMappedToDepthPointCount; ++colorIndex)
                            {
                                float colorMappedToDepthX = colorMappedToDepthPointsPointer[colorIndex].X;
                                float colorMappedToDepthY = colorMappedToDepthPointsPointer[colorIndex].Y;

                                // The sentinel value is -inf, -inf, meaning that no depth pixel corresponds to this color pixel.
                                if (!float.IsNegativeInfinity(colorMappedToDepthX) &&
                                    !float.IsNegativeInfinity(colorMappedToDepthY))
                                {
                                    // Make sure the depth pixel maps to a valid point in color space
                                    int depthX = (int)(colorMappedToDepthX + 0.5f);
                                    int depthY = (int)(colorMappedToDepthY + 0.5f);

                                    // If the point is not valid, there is no body index there.
                                    if ((depthX >= 0) && (depthX < depthWidth) && (depthY >= 0) && (depthY < depthHeight))
                                    {
                                        int depthIndex = (depthY * depthWidth) + depthX;

                                        bitmapPixelsPointer[colorIndex] = bitmapPixelsPointer[colorIndex] | averagePixels[depthIndex];
                                    }
                                }
                            }
                        }

                        this.bitmap.AddDirtyRect(new Int32Rect(0, 0, this.bitmap.PixelWidth, this.bitmap.PixelHeight));
                    }
                }
            }
            finally
            {
                if (isBitmapLocked)
                {
                    this.bitmap.Unlock();
                }

                if (depthFrame != null)
                {
                    depthFrame.Dispose();
                }

                if (colorFrame != null)
                {
                    colorFrame.Dispose();
                }

                if (bodyIndexFrame != null)
                {
                    bodyIndexFrame.Dispose();
                }
            }
        }
        private void maskBackground(BodyIndexFrame bodyIndexFrame, int depthWidth, int depthHeight)
        {
            //  We'll access the body index data directly to avoid a copy
            using (KinectBuffer bodyIndexData = bodyIndexFrame.LockImageBuffer())
            {
                unsafe
                {
                    byte* bodyIndexDataPointer = (byte*)bodyIndexData.UnderlyingBuffer;

                    int colorMappedToDepthPointCount = this.colorMappedToDepthPoints.Length;

                    fixed (DepthSpacePoint* colorMappedToDepthPointsPointer = this.colorMappedToDepthPoints)
                    {
                        // Treat the color data as 4-byte pixels
                        uint* bitmapPixelsPointer = (uint*)this.bitmap.BackBuffer;

                        // Loop over each row and column of the color image
                        // Zero out any pixels that don't correspond to a body index
                        for (int colorIndex = 0; colorIndex < colorMappedToDepthPointCount; ++colorIndex)
                        {
                            float colorMappedToDepthX = colorMappedToDepthPointsPointer[colorIndex].X;
                            float colorMappedToDepthY = colorMappedToDepthPointsPointer[colorIndex].Y;

                            // The sentinel value is -inf, -inf, meaning that no depth pixel corresponds to this color pixel.
                            if (!float.IsNegativeInfinity(colorMappedToDepthX) &&
                                !float.IsNegativeInfinity(colorMappedToDepthY))
                            {
                                // Make sure the depth pixel maps to a valid point in color space
                                int depthX = (int)(colorMappedToDepthX + 0.5f);
                                int depthY = (int)(colorMappedToDepthY + 0.5f);

                                // If the point is not valid, there is no body index there.
                                if ((depthX >= 0) && (depthX < depthWidth) && (depthY >= 0) && (depthY < depthHeight))
                                {
                                    int depthIndex = (depthY * depthWidth) + depthX;

                                    // If we are tracking a body for the current pixel, do not zero out the pixel
                                    if (bodyIndexDataPointer[depthIndex] != 0xff)
                                    {
                                        continue;
                                    }
                                }
                            }

                            bitmapPixelsPointer[colorIndex] = 0;
                        }
                    }

                    this.bitmap.AddDirtyRect(new Int32Rect(0, 0, this.bitmap.PixelWidth, this.bitmap.PixelHeight));
                }
            }
        }
Exemplo n.º 20
0
        private void Reader_MultiSourceFrameArrived(MultiSourceFrameReader sender, MultiSourceFrameArrivedEventArgs e)
        {
            MultiSourceFrame multiSourceFrame = e.FrameReference.AcquireFrame();

            // If the Frame has expired by the time we process this event, return.
            if (multiSourceFrame == null)
            {
                return;
            }
            DepthFrame     depthFrame           = null;
            ColorFrame     colorFrame           = null;
            InfraredFrame  infraredFrame        = null;
            BodyFrame      bodyFrame            = null;
            BodyIndexFrame bodyIndexFrame       = null;
            IBuffer        depthFrameDataBuffer = null;
            IBuffer        bodyIndexFrameData   = null;
            // Com interface for unsafe byte manipulation
            IBufferByteAccess bufferByteAccess = null;

            switch (CurrentDisplayFrameType)
            {
            case DisplayFrameType.Infrared:
                using (infraredFrame = multiSourceFrame.InfraredFrameReference.AcquireFrame())
                {
                    ShowInfraredFrame(infraredFrame);
                }
                break;

            case DisplayFrameType.Color:
                using (colorFrame = multiSourceFrame.ColorFrameReference.AcquireFrame())
                {
                    ShowColorFrame(colorFrame);
                }
                break;

            case DisplayFrameType.Depth:
                using (depthFrame = multiSourceFrame.DepthFrameReference.AcquireFrame())
                {
                    ShowDepthFrame(depthFrame);
                }
                break;

            case DisplayFrameType.BodyMask:
                // Put in a try catch to utilise finally() and clean up frames
                try
                {
                    depthFrame     = multiSourceFrame.DepthFrameReference.AcquireFrame();
                    bodyIndexFrame = multiSourceFrame.BodyIndexFrameReference.AcquireFrame();
                    colorFrame     = multiSourceFrame.ColorFrameReference.AcquireFrame();
                    if ((depthFrame == null) || (colorFrame == null) || (bodyIndexFrame == null))
                    {
                        return;
                    }

                    // Access the depth frame data directly via LockImageBuffer to avoid making a copy
                    depthFrameDataBuffer = depthFrame.LockImageBuffer();
                    this.coordinateMapper.MapColorFrameToDepthSpaceUsingIBuffer(depthFrameDataBuffer, this.colorMappedToDepthPoints);
                    // Process Color
                    colorFrame.CopyConvertedFrameDataToBuffer(this.bitmap.PixelBuffer, ColorImageFormat.Bgra);
                    // Access the body index frame data directly via LockImageBuffer to avoid making a copy
                    bodyIndexFrameData = bodyIndexFrame.LockImageBuffer();
                    ShowMappedBodyFrame(depthFrame.FrameDescription.Width, depthFrame.FrameDescription.Height, bodyIndexFrameData, bufferByteAccess);
                }
                finally
                {
                    if (depthFrame != null)
                    {
                        depthFrame.Dispose();
                    }
                    if (colorFrame != null)
                    {
                        colorFrame.Dispose();
                    }
                    if (bodyIndexFrame != null)
                    {
                        bodyIndexFrame.Dispose();
                    }

                    if (depthFrameDataBuffer != null)
                    {
                        // We must force a release of the IBuffer in order to ensure that we have dropped all references to it.
                        System.Runtime.InteropServices.Marshal.ReleaseComObject(depthFrameDataBuffer);
                    }
                    if (bodyIndexFrameData != null)
                    {
                        System.Runtime.InteropServices.Marshal.ReleaseComObject(bodyIndexFrameData);
                    }
                    if (bufferByteAccess != null)
                    {
                        System.Runtime.InteropServices.Marshal.ReleaseComObject(bufferByteAccess);
                    }
                }
                break;

            case DisplayFrameType.BodyJoints:
                using (bodyFrame = multiSourceFrame.BodyFrameReference.AcquireFrame())
                {
                    ShowBodyJoints(bodyFrame);
                }
                break;

            case DisplayFrameType.BackgroundRemoved:
                // Put in a try catch to utilise finally() and clean up frames
                try
                {
                    depthFrame = multiSourceFrame.DepthFrameReference.AcquireFrame();
                    colorFrame = multiSourceFrame.ColorFrameReference.AcquireFrame();
                    if ((depthFrame == null) || (colorFrame == null))
                    {
                        return;
                    }
                    depthFrame.CopyFrameDataToArray(depthFrameData);
                    this.coordinateMapper.MapColorFrameToDepthSpace(depthFrameData, this.colorMappedToDepthPoints);
                    // Process Color.
                    colorFrame.CopyConvertedFrameDataToBuffer(this.bitmap.PixelBuffer, ColorImageFormat.Bgra);

                    ShowMappedColorBackgroundRemoved(colorMappedToDepthPoints, depthFrameData, depthFrame.FrameDescription);
                }
                finally
                {
                    if (depthFrame != null)
                    {
                        depthFrame.Dispose();
                    }
                    if (colorFrame != null)
                    {
                        colorFrame.Dispose();
                    }
                }
                break;

            default:
                break;
            }
        }
        private void Reader_MultiSourceFrameArrived(object sender, MultiSourceFrameArrivedEventArgs e)
        {
            int depthWidth  = 0;
            int depthHeight = 0;

            DepthFrame     depthFrame     = null;
            ColorFrame     colorFrame     = null;
            BodyIndexFrame bodyIndexFrame = null;
            BodyFrame      bodyFrame      = null;
            bool           isBitmapLocked = false;

            try
            {
                MultiSourceFrame multiSourceFrame = e.FrameReference.AcquireFrame();

                depthFrame     = multiSourceFrame.DepthFrameReference.AcquireFrame();
                colorFrame     = multiSourceFrame.ColorFrameReference.AcquireFrame();
                bodyIndexFrame = multiSourceFrame.BodyIndexFrameReference.AcquireFrame();
                bodyFrame      = multiSourceFrame.BodyFrameReference.AcquireFrame();

                if ((depthFrame == null) || (colorFrame == null) || (bodyIndexFrame == null) || (bodyFrame == null))
                {
                    return;
                }

                if (this.bodies == null)
                {
                    this.bodies = new Body[bodyFrame.BodyCount];
                }

                bodyFrame.GetAndRefreshBodyData(this.bodies);
                bodyFrame.Dispose();
                bodyFrame = null;

                bool isBodyTracked = false;
                foreach (Body body in this.bodies)
                {
                    if (body.IsTracked)
                    {
                        isBodyTracked = true;
                        continue;
                    }
                }
                hasTrackedBodies = isBodyTracked;
                if (hasTrackedBodies && !isCapturing)
                {
                    BeginCountdown();
                }

                FrameDescription depthFrameDescription = depthFrame.FrameDescription;

                depthWidth  = depthFrameDescription.Width;
                depthHeight = depthFrameDescription.Height;

                using (KinectBuffer depthFrameData = depthFrame.LockImageBuffer())
                {
                    this.coordinateMapper.MapColorFrameToDepthSpaceUsingIntPtr(
                        depthFrameData.UnderlyingBuffer,
                        depthFrameData.Size,
                        this.colorMappedToDepthPoints);
                }

                depthFrame.Dispose();
                depthFrame = null;

                this.liveBitmap.Lock();
                isBitmapLocked = true;

                colorFrame.CopyConvertedFrameDataToIntPtr(this.liveBitmap.BackBuffer, this.bitmapBackBufferSize, ColorImageFormat.Bgra);

                colorFrame.Dispose();
                colorFrame = null;

                using (KinectBuffer bodyIndexData = bodyIndexFrame.LockImageBuffer())
                {
                    unsafe
                    {
                        byte *bodyIndexDataPointer = (byte *)bodyIndexData.UnderlyingBuffer;

                        int colorMappedToDepthPointCount = this.colorMappedToDepthPoints.Length;

                        fixed(DepthSpacePoint *colorMappedToDepthPointsPointer = this.colorMappedToDepthPoints)
                        {
                            uint *bitmapPixelsPointer = (uint *)this.liveBitmap.BackBuffer;

                            for (int colorIndex = 0; colorIndex < colorMappedToDepthPointCount; ++colorIndex)
                            {
                                float colorMappedToDepthX = colorMappedToDepthPointsPointer[colorIndex].X;
                                float colorMappedToDepthY = colorMappedToDepthPointsPointer[colorIndex].Y;

                                if (!float.IsNegativeInfinity(colorMappedToDepthX) &&
                                    !float.IsNegativeInfinity(colorMappedToDepthY))
                                {
                                    int depthX = (int)(colorMappedToDepthX + 0.5f);
                                    int depthY = (int)(colorMappedToDepthY + 0.5f);

                                    if ((depthX >= 0) && (depthX < depthWidth) && (depthY >= 0) && (depthY < depthHeight))
                                    {
                                        int depthIndex = (depthY * depthWidth) + depthX;
                                        if (bodyIndexDataPointer[depthIndex] != 0xff)
                                        {
                                            continue;
                                        }
                                    }
                                }

                                bitmapPixelsPointer[colorIndex] = 0;
                            }
                        }

                        this.liveBitmap.AddDirtyRect(new Int32Rect(0, 0, this.liveBitmap.PixelWidth, this.liveBitmap.PixelHeight));
                    }
                }
            }
            finally
            {
                if (isBitmapLocked)
                {
                    this.liveBitmap.Unlock();
                }
                if (depthFrame != null)
                {
                    depthFrame.Dispose();
                }
                if (colorFrame != null)
                {
                    colorFrame.Dispose();
                }
                if (bodyIndexFrame != null)
                {
                    bodyIndexFrame.Dispose();
                }
                if (bodyFrame != null)
                {
                    bodyFrame.Dispose();
                }
            }
        }
Exemplo n.º 22
0
        void GreenScreenMappingDepthToColorSplats(ref DepthFrame depthFrame, ref ColorFrame colorFrame, ref BodyIndexFrame bodyIndexFrame, int depthWidth, int depthHeight, int colorWidth, int colorHeight)
        {
            m_stopwatch.Restart();

            using (KinectBuffer depthFrameData = depthFrame.LockImageBuffer()) {
                // Need to know the color space point for each depth space point, but this is much less data
                // and much faster to compute than mapping the other way
                m_coordinateMapper.MapDepthFrameToColorSpaceUsingIntPtr(
                    depthFrameData.UnderlyingBuffer,
                    depthFrameData.Size,
                    m_depthToColorSpacePoints);
            }

            m_depthMapTimer.Update(m_stopwatch.ElapsedMilliseconds);
            m_stopwatch.Restart();

            // We're done with the DepthFrame 
            depthFrame.Dispose();
            depthFrame = null;

            lock (m_displayPixels) { // [KinectThread] avoid racing display buffer refresh with render (can cause missing images)

                // have to clear the display pixels so we can copy only the BGRA image of the player(s)
                Array.Clear(m_displayPixels, 0, m_displayPixels.Length);

                unsafe {
                    fixed (byte* colorFrameDataPtr = &m_colorFrameData[0]) {
                        colorFrame.CopyConvertedFrameDataToIntPtr(new IntPtr(colorFrameDataPtr), (uint)m_colorFrameData.Length, ColorImageFormat.Bgra);
                    }
                }

                // done with the colorFrame
                colorFrame.Dispose();
                colorFrame = null;

                m_colorCopyTimer.Update(m_stopwatch.ElapsedMilliseconds);
                m_stopwatch.Restart();

                // We'll access the body index data directly to avoid a copy
                using (KinectBuffer bodyIndexData = bodyIndexFrame.LockImageBuffer()) {
                    unsafe {
                        byte* bodyIndexDataPointer = (byte*)bodyIndexData.UnderlyingBuffer;
                        uint bodyIndexDataLength = bodyIndexData.Size;

                        int colorMappedToDepthPointCount = m_colorToDepthSpacePoints.Length;

                        fixed (ColorSpacePoint* depthMappedToColorPointsPointer = m_depthToColorSpacePoints) {
                            fixed (byte* bitmapPixelsBytePointer = &m_displayPixels[0]) {
                                fixed (byte* sourcePixelsBytePointer = &m_colorFrameData[0]) {
                                    uint* bitmapPixelsPointer = (uint*)bitmapPixelsBytePointer;
                                    uint* sourcePixelsPointer = (uint*)sourcePixelsBytePointer;

                                    // We don't go all the way to the edge of the depth buffer, to eliminate a chance
                                    // that a splat will go outside the edge of the color buffer when mapped to color
                                    // space.  In the x direction this will never happen anyway since the depth FOV
                                    // is so much narrower than the color FOV.
                                    const int Margin = 2;
                                    for (int y = Margin; y < depthHeight - Margin; y++) {
                                        for (int x = 0; x < depthWidth; x++) {
                                            // Scan forwards until we find a non-0xff value in the body index data.
                                            int depthIndex = y * depthWidth + x;
                                            if (bodyIndexDataPointer[depthIndex] != 0xff) {
                                                int depthIndex2 = depthIndex;
                                                // We found the beginning of a horizontal run of player pixels.
                                                // Scan to the end.
                                                int runWidth;
                                                for (runWidth = 1; runWidth + x < depthWidth; runWidth++) {
                                                    depthIndex2++;
                                                    if (bodyIndexDataPointer[depthIndex2] == 0xff) {
                                                        break;
                                                    }
                                                }
                                                
                                                // Now splat from (x, y) to (x + runWidth, y)
                                                float depthMappedToColorLeftX = depthMappedToColorPointsPointer[depthIndex].X;
                                                float depthMappedToColorLeftY = depthMappedToColorPointsPointer[depthIndex].Y;
                                                float depthMappedToColorRightX = depthMappedToColorPointsPointer[depthIndex2 - 1].X;
                                                float depthMappedToColorRightY = depthMappedToColorPointsPointer[depthIndex2 - 1].Y;

                                                // Now copy color pixels along that rectangle.
                                                const int splatHMargin = 2; // X margin of splat rectangle in color pixels
                                                const int splatVMargin = 3; // Y margin of splat rectangle in color pixels
                                                int minX = (int)Math.Min(depthMappedToColorLeftX, depthMappedToColorRightX) - splatHMargin;
                                                int minY = (int)Math.Min(depthMappedToColorLeftY, depthMappedToColorRightY) - splatVMargin;
                                                int maxX = (int)Math.Max(depthMappedToColorLeftX, depthMappedToColorRightX) + splatHMargin;
                                                int maxY = (int)Math.Max(depthMappedToColorLeftY, depthMappedToColorRightY) + splatVMargin;

                                                // Some edge of screen situations can result in color space points that are negative or otherwise
                                                // actually outside the color space coordinate range.
                                                Clamp(ref minX, colorWidth - 1);
                                                Clamp(ref minY, colorHeight - 1);
                                                Clamp(ref maxX, colorWidth - 1);
                                                Clamp(ref maxY, colorHeight - 1);

                                                for (int colorY = minY; colorY < maxY; colorY++) {
                                                    int colorIndex = colorY * colorWidth + minX;
                                                    for (int colorX = minX; colorX < maxX; colorX++) {
                                                        bitmapPixelsPointer[colorIndex] = sourcePixelsPointer[colorIndex];
                                                        colorIndex++;
                                                    }
                                                }

                                                x += runWidth;                          
                                            }
                                        }
                                    }
                                }
                            }
                        }
                    }
                }

                // Done with bodyIndexFrame
                bodyIndexFrame.Dispose();
                bodyIndexFrame = null;                
            }

            m_colorScanTimer.Update(m_stopwatch.ElapsedMilliseconds);
            m_stopwatch.Restart();

            m_displayTexture.SetData(m_displayPixels);

            m_textureSetDataTimer.Update(m_stopwatch.ElapsedMilliseconds);
            m_stopwatch.Restart();

            Spam.TopLine1 = string.Format("depth map: {0} msec; color copy: {1} msec; color scan: {2} msec; texture set: {3} msec",
                m_depthMapTimer.Average,
                m_colorCopyTimer.Average,
                m_colorScanTimer.Average,
                m_textureSetDataTimer.Average);
        }
Exemplo n.º 23
0
        /// <summary>
        /// Handles the depth/color/body index frame data arriving from the sensor
        /// </summary>
        /// <param name="sender">object sending the event</param>
        /// <param name="e">event arguments</param>
        private void Reader_MultiSourceFrameArrived(object sender, MultiSourceFrameArrivedEventArgs e)
        {
            double   fps         = 0;
            TimeSpan elapsedSpan = new TimeSpan(DateTime.Now.Ticks - this.timestamp.Ticks);

            if (elapsedSpan.Milliseconds < (1000f / MAX_FPS))
            {
                return;
            }
            fps            = 1000f / elapsedSpan.Milliseconds;
            this.timestamp = DateTime.Now;

            DepthFrame     depthFrame     = null;
            ColorFrame     colorFrame     = null;
            BodyIndexFrame bodyIndexFrame = null;
            bool           isBitmapLocked = false;

            MultiSourceFrame multiSourceFrame = e.FrameReference.AcquireFrame();

            // If the Frame has expired by the time we process this event, return.
            if (multiSourceFrame == null)
            {
                return;
            }

            // We use a try/finally to ensure that we clean up before we exit the function.
            // This includes calling Dispose on any Frame objects that we may have and unlocking the bitmap back buffer.
            try
            {
                depthFrame     = multiSourceFrame.DepthFrameReference.AcquireFrame();
                colorFrame     = multiSourceFrame.ColorFrameReference.AcquireFrame();
                bodyIndexFrame = multiSourceFrame.BodyIndexFrameReference.AcquireFrame();

                // If any frame has expired by the time we process this event, return.
                // The "finally" statement will Dispose any that are not null.
                if ((depthFrame == null) || (colorFrame == null) || (bodyIndexFrame == null))
                {
                    return;
                }

                FrameDescription colorFrameDescription = colorFrame.FrameDescription;

                // Process Depth
                FrameDescription depthFrameDescription = depthFrame.FrameDescription;

                // Access the depth frame data directly via LockImageBuffer to avoid making a copy
                using (KinectBuffer depthFrameData = depthFrame.LockImageBuffer())
                {
                    this.coordinateMapper.MapColorFrameToDepthSpaceUsingIntPtr(
                        depthFrameData.UnderlyingBuffer,
                        depthFrameData.Size,
                        this.colorMappedToDepthPoints);

                    this.coordinateMapper.MapDepthFrameToColorSpaceUsingIntPtr(
                        depthFrameData.UnderlyingBuffer,
                        depthFrameData.Size,
                        this.depthMappedToColorPoints);
                }

                ushort[] depthData = new ushort[depthWidth * depthHeight];

                depthFrame.CopyFrameDataToArray(depthData);

                // We're done with the DepthFrame
                depthFrame.Dispose();
                depthFrame = null;

                // Process Color

                // Lock the bitmap for writing
                this.bitmap.Lock();
                isBitmapLocked = true;

                colorFrame.CopyConvertedFrameDataToIntPtr(this.bitmap.BackBuffer, this.bitmapBackBufferSize, ColorImageFormat.Bgra);

                // We're done with the ColorFrame
                colorFrame.Dispose();
                colorFrame = null;

                // We'll access the body index data directly to avoid a copy
                using (KinectBuffer bodyIndexData = bodyIndexFrame.LockImageBuffer())
                {
                    unsafe
                    {
                        byte *bodyIndexDataPointer = (byte *)bodyIndexData.UnderlyingBuffer;

                        BodyRect[] bodys = new BodyRect[BODY_MAX_NUMBER];
                        for (byte i = 0; i < BODY_MAX_NUMBER; ++i)
                        {
                            bodys[i] = new BodyRect(int.MaxValue, 0, 0, int.MaxValue);
                        }

                        int colorMappedToDepthPointCount = this.colorMappedToDepthPoints.Length;

                        // use canny algorithm to detect edge...
                        Stopwatch watch  = Stopwatch.StartNew();
                        byte[]    result = EdgeDetection.Canny(bodyIndexData.UnderlyingBuffer, depthWidth, depthHeight);
                        watch.Stop();

                        List <Location> points = new List <Location>();
                        points.Add(transformToLocation(440, 200, depthData));
                        points.Add(transformToLocation(420, 230, depthData));
                        points.Add(transformToLocation(470, 220, depthData));
                        points.Add(transformToLocation(460, 300, depthData));
                        points.Add(transformToLocation(400, 280, depthData));
                        points.Add(transformToLocation(370, 280, depthData));
                        Plane  plane    = PlaneDetection.calc(points);
                        double angel    = Math.Abs(Math.Atan(-1 / plane.k));
                        double distance = plane.b * Math.Sin(angel);

                        string output = string.Format("fps: {0:F}, It takes {1:F} ms for Canny. k: {2:F}, b: {3:F}, angel: {4:F}, distance: {5:F}",
                                                      fps, watch.ElapsedMilliseconds, plane.k, plane.b, angel * 180 / Math.PI, distance);
                        processStatusUpdated(output);

                        fixed(byte *cannyResult = &result[0])
                        fixed(DepthSpacePoint * colorMappedToDepthPointsPointer = this.colorMappedToDepthPoints)
                        {
                            // Treat the color data as 4-byte pixels
                            uint *bitmapPixelsPointer = (uint *)this.bitmap.BackBuffer;

                            // Loop over each row and column of the color image
                            for (int y = 0; y < colorHeight; ++y)
                            {
                                for (int x = 0; x < colorWidth; ++x)
                                {
                                    DepthSpacePoint depthPoint          = getDepthPoint(x, y);
                                    float           colorMappedToDepthX = depthPoint.X;
                                    float           colorMappedToDepthY = depthPoint.Y;

                                    // The sentinel value is -inf, -inf, meaning that no depth pixel corresponds to this color pixel.
                                    if (!float.IsNegativeInfinity(colorMappedToDepthX) &&
                                        !float.IsNegativeInfinity(colorMappedToDepthY))
                                    {
                                        // Make sure the depth pixel maps to a valid point in color space
                                        int depthX = (int)(colorMappedToDepthX + 0.5f);
                                        int depthY = (int)(colorMappedToDepthY + 0.5f);

                                        // If the point is not valid, there is no body index there.
                                        if ((depthX >= 0) && (depthX < depthWidth) && (depthY >= 0) && (depthY < depthHeight))
                                        {
                                            int depthIndex = (depthY * depthWidth) + depthX;

                                            if (cannyResult[depthIndex] > 0)
                                            {
                                                bitmapPixelsPointer[y * colorWidth + x] = 0xffff0000;
                                            }

                                            // If we are tracking a body for the current pixel, ...
                                            int bodyIndex = bodyIndexDataPointer[depthIndex];
                                            if (bodyIndex != 0xff)
                                            {
                                                // justify whether this point is true body
                                                uint count = 0;

                                                if (bodyIndex == bodyIndexDataPointer[(depthY - 1) * depthWidth + (depthX - 1)])
                                                {
                                                    count++;
                                                }
                                                if (bodyIndex == bodyIndexDataPointer[(depthY) * depthWidth + (depthX + 1)])
                                                {
                                                    count++;
                                                }
                                                if (bodyIndex == bodyIndexDataPointer[(depthY + 1) * depthWidth + (depthX)])
                                                {
                                                    count++;
                                                }
                                                if (count == 3)
                                                {
                                                    bodys[bodyIndex].top    = Math.Min(bodys[bodyIndex].top, y);
                                                    bodys[bodyIndex].bottom = Math.Max(bodys[bodyIndex].bottom, y);
                                                    bodys[bodyIndex].left   = Math.Min(bodys[bodyIndex].left, x);
                                                    bodys[bodyIndex].right  = Math.Max(bodys[bodyIndex].right, x);
                                                }

                                                //for (uint j = 0; j < 3; ++j)
                                                //    for (uint i = 0; i < 3; ++i)
                                                //        if (bodyIndex == bodyIndexDataPointer[(depthY - 1 + j) * depthWidth + (depthX - 1 + i)])
                                                //            count++;
                                                //if (count > 7) {
                                                //    bodys[bodyIndex].top    = Math.Min(bodys[bodyIndex].top, y);
                                                //    bodys[bodyIndex].bottom = Math.Max(bodys[bodyIndex].bottom, y);
                                                //    bodys[bodyIndex].left   = Math.Min(bodys[bodyIndex].left, x);
                                                //    bodys[bodyIndex].right  = Math.Max(bodys[bodyIndex].right, x);
                                                //}
                                            }
                                            continue;
                                        }
                                    }
                                }
                            }
                        }

                        for (int i = 0; i < points.Count; ++i)
                        {
                            ColorSpacePoint point = getColorPoint(points[i].depthFrameX, points[i].depthFrameY);
                            if (point.X != Double.NegativeInfinity)
                            {
                                DrawPoint(this.bitmap, point);
                            }
                        }

                        List <Location> locations   = new List <Location>();
                        BodyRect        initialBody = new BodyRect(int.MaxValue, 0, 0, int.MaxValue);
                        for (uint i = 0; i < BODY_MAX_NUMBER; i++)
                        {
                            BodyRect body = bodys[i];
                            if (!body.Equals(initialBody))
                            {
                                DrawRect(this.bitmap, body.top, body.right, body.bottom, body.left);

                                // calculate the actual location of this body
                                DepthSpacePoint point = getDepthPoint((body.right + body.left) / 2, (body.bottom + body.top) / 2);
                                Location        loc   = transformToLocation(point, depthData, true);
                                if (loc.depth > 0)
                                {
                                    locations.Add(loc);
                                }
                            }
                        }

                        locationUpdated(locations.ToArray());

                        this.bitmap.AddDirtyRect(new Int32Rect(0, 0, this.bitmap.PixelWidth, this.bitmap.PixelHeight));
                    }
                }
            }
            finally
            {
                if (isBitmapLocked)
                {
                    this.bitmap.Unlock();
                }

                if (depthFrame != null)
                {
                    depthFrame.Dispose();
                }

                if (colorFrame != null)
                {
                    colorFrame.Dispose();
                }

                if (bodyIndexFrame != null)
                {
                    bodyIndexFrame.Dispose();
                }
            }
        }