smakhtin/ObjectTrackingNode.cs

## ObjectTrackingNode.cs
#region usings
using System;
using System.ComponentModel.Composition;
using System.Drawing;
using System.Threading;

using VVVV.PluginInterfaces.V2;
using VVVV.Utils.VMath;
using VVVV.Core.Logging;

using Emgu.CV;
using Emgu.CV.Structure;
using Emgu.CV.CvEnum;
using System.Collections.Generic;

#endregion usings

namespace VVVV.Nodes.EmguCV
{
  class TrackingObject
  {
    public Vector2D Position;
    public Vector2D Scale;
  }

  class TrackingInstance
  {
    private readonly Vector2D FMinimumSourceXY = new Vector2D(0, 0);
    private readonly Vector2D FMinimumDestXY = new Vector2D(-0.5, 0.5);
    private readonly Vector2D FMaximumDestXY = new Vector2D(0.5, -0.5);

    private Thread FTrackingThread;
    private bool FIsRunning;

    private ImageRGB FSource;
    private Image<Gray, byte> FGrayImage;

    private HaarCascade FHaarCascade;

    public List<TrackingObject> Objects = new List<TrackingObject>();

    private string FHaarPath;

    public string HaarPath
    {
      get { return FHaarPath; }

      set
      {
        FHaarPath = value;
        try
        {
          FHaarCascade = new HaarCascade(value);
        }
        catch
        {
          //Not Implemented
        }
      }
    }

    public ImageRGB Source
    {
      get { return FSource; }
      set { FSource = value; }
    }

    public TrackingInstance(ImageRGB image, string haarPath)
    {
      FSource = image;
      HaarPath = haarPath;
      FTrackingThread = new Thread(FindFacesThread);
      FTrackingThread.Start();

      FIsRunning = true;
    }

    public void Close()
    {
      if (!FIsRunning) return;

      FIsRunning = false;
      FTrackingThread.Join(100);
      FTrackingThread = null;
    }

    void FindFacesThread()
    {
      while (FIsRunning)
      {
        if (FSource.FrameChanged)
       lock(this)
       {
        FGrayImage = FSource.Img.Convert<Gray, Byte>();

        var stride = (FGrayImage.Width * 3);
        var align = stride % 4;

        if (align != 0)
        {
         stride += 4 - align;
       }

       FGrayImage._EqualizeHist();

       MCvAvgComp[] objectsDetected = FHaarCascade.Detect(FGrayImage, 1.8, 4, HAAR_DETECTION_TYPE.DO_CANNY_PRUNING, new Size(FGrayImage.Width / 10, FGrayImage.Height / 10));

       Objects.Clear();

       foreach (MCvAvgComp f in objectsDetected)
       {
         TrackingObject trackingObject = new TrackingObject();

         Vector2D objectCenterPosition = new Vector2D(f.rect.X + f.rect.Width / 2, f.rect.Y + f.rect.Height / 2);
         Vector2D maximumSourceXY = new Vector2D(FGrayImage.Width, FGrayImage.Height);

         trackingObject.Position = VMath.Map(objectCenterPosition, FMinimumSourceXY, maximumSourceXY, FMinimumDestXY, FMaximumDestXY, TMapMode.Float);
         trackingObject.Scale = VMath.Map(new Vector2D(f.rect.Width, f.rect.Height), FMinimumSourceXY.x, maximumSourceXY.x, 0, 1, TMapMode.Float);

         Objects.Add(trackingObject);
       }
     }
   }
 }
}

#region PluginInfo
[PluginInfo(Name = "ObjectTracking", Category = "EmguCV", Help = "Tracks faces and eyes", Author = "alg, sugokuGENKI", Tags = "")]
#endregion PluginInfo
public class ObjectTrackingNode : IPluginEvaluate, IDisposable
{
  #region fields & pins
  [Input("Image")]
  IDiffSpread<ImageRGB> FPinInImages;

  [Input("Haar Table", DefaultString = "haarcascade_frontalface_alt2.xml", IsSingle = true, StringType = StringType.Filename)]
  IDiffSpread<string> FHaarPath;

  [Input("Enabled", DefaultValue = 1)]
  ISpread<bool> FEnabled;

  [Output("Position")]
  ISpread<ISpread<Vector2D>> FPinOutPositionXY;

  [Output("Scale")]
  ISpread<ISpread<Vector2D>> FPinOutScaleXY;

  [Import]
  ILogger FLogger;

  private readonly Dictionary<int, TrackingInstance> FTrackers = new Dictionary<int,TrackingInstance>();


  #endregion fields & pins

  public void Dispose()
  {
   foreach (KeyValuePair<int, TrackingInstance> tracker in FTrackers)
   tracker.Value.Close();
 }

    //called when data for any output pin is requested
    public void Evaluate(int SpreadMax)
    {

      UpdateTrackers();

      if(FHaarPath.IsChanged)
      {
        if (FHaarPath.SliceCount > 0)
        {
          UpdateHaars();
        }
      }

      if(FPinInImages.IsChanged)
      {
        if(FPinInImages.SliceCount > 0) UpdateImages();
      }

      OutputFaces();
    }

    void UpdateTrackers()
    {
      for (int i = FPinInImages.SliceCount; i < FTrackers.Count; i++)
      {
        FTrackers[i].Close();
        FTrackers.Remove(i);
      }

      for (int i = 0; i < FPinInImages.SliceCount; i++)
      {
        if(FPinInImages[i] == null)
        {
          TrackingInstance instance;
          FTrackers.TryGetValue(i, out instance);
          if(instance != null)
          {
            FTrackers[i].Close();
            FTrackers.Remove(i);
          }
          continue;
        }

        if (!FTrackers.ContainsKey(i))
        {
          if(FPinInImages[i].Img == null) continue;

          FTrackers.Add(i, new TrackingInstance(FPinInImages[i], FHaarPath[i]));
        }
        else if (FPinInImages[i].FrameAttributesChanged)
        {
          FTrackers[i] = new TrackingInstance(FPinInImages[i], FHaarPath[i]);
        }
      }

    }

    void UpdateHaars()
    {
      int count = FTrackers.Count;

      for (int i = 0; i < count; i++)
      {
        try
        {
          FTrackers[i].HaarPath = FHaarPath[i];
        }
        catch
        {
          FLogger.Log(LogType.Error, "Loading Haar failed at slice ", i.ToString());
        }
      }
    }

    void UpdateImages()
    {
      for (int i = 0; i < FTrackers.Count; i++)
      {
        FTrackers[i].Source = FPinInImages[i];
      }
    }

    void OutputFaces()
    {
      FPinOutPositionXY.SliceCount = FTrackers.Count;
      FPinOutScaleXY.SliceCount = FTrackers.Count;

      foreach (KeyValuePair<int, TrackingInstance> tracker in FTrackers)
      {
        int count = tracker.Value.Objects.Count;
        FPinOutPositionXY[tracker.Key].SliceCount = count;
        FPinOutScaleXY[tracker.Key].SliceCount = count;

        for (int i = 0; i < count; i++)
        {
          try
          {
            FPinOutPositionXY[tracker.Key][i] = tracker.Value.Objects[i].Position;
            FPinOutScaleXY[tracker.Key][i] = tracker.Value.Objects[i].Scale;
          }
          catch
          {
            FLogger.Log(LogType.Error, "Desync in threads");
          }
        }
      }
    }
  }
}
	#region usings
	using System;
	using System.ComponentModel.Composition;
	using System.Drawing;
	using System.Threading;

	using VVVV.PluginInterfaces.V2;
	using VVVV.Utils.VMath;
	using VVVV.Core.Logging;

	using Emgu.CV;
	using Emgu.CV.Structure;
	using Emgu.CV.CvEnum;
	using System.Collections.Generic;

	#endregion usings

	namespace VVVV.Nodes.EmguCV
	{
	class TrackingObject
	{
	public Vector2D Position;
	public Vector2D Scale;
	}

	class TrackingInstance
	{
	private readonly Vector2D FMinimumSourceXY = new Vector2D(0, 0);
	private readonly Vector2D FMinimumDestXY = new Vector2D(-0.5, 0.5);
	private readonly Vector2D FMaximumDestXY = new Vector2D(0.5, -0.5);

	private Thread FTrackingThread;
	private bool FIsRunning;

	private ImageRGB FSource;
	private Image<Gray, byte> FGrayImage;

	private HaarCascade FHaarCascade;

	public List<TrackingObject> Objects = new List<TrackingObject>();

	private string FHaarPath;

	public string HaarPath
	{
	get { return FHaarPath; }

	set
	{
	FHaarPath = value;
	try
	{
	FHaarCascade = new HaarCascade(value);
	}
	catch
	{
	//Not Implemented
	}
	}
	}

	public ImageRGB Source
	{
	get { return FSource; }
	set { FSource = value; }
	}

	public TrackingInstance(ImageRGB image, string haarPath)
	{
	FSource = image;
	HaarPath = haarPath;
	FTrackingThread = new Thread(FindFacesThread);
	FTrackingThread.Start();

	FIsRunning = true;
	}

	public void Close()
	{
	if (!FIsRunning) return;

	FIsRunning = false;
	FTrackingThread.Join(100);
	FTrackingThread = null;
	}

	void FindFacesThread()
	{
	while (FIsRunning)
	{
	if (FSource.FrameChanged)
	lock(this)
	{
	FGrayImage = FSource.Img.Convert<Gray, Byte>();

	var stride = (FGrayImage.Width * 3);
	var align = stride % 4;

	if (align != 0)
	{
	stride += 4 - align;
	}

	FGrayImage._EqualizeHist();

	MCvAvgComp[] objectsDetected = FHaarCascade.Detect(FGrayImage, 1.8, 4, HAAR_DETECTION_TYPE.DO_CANNY_PRUNING, new Size(FGrayImage.Width / 10, FGrayImage.Height / 10));

	Objects.Clear();

	foreach (MCvAvgComp f in objectsDetected)
	{
	TrackingObject trackingObject = new TrackingObject();

	Vector2D objectCenterPosition = new Vector2D(f.rect.X + f.rect.Width / 2, f.rect.Y + f.rect.Height / 2);
	Vector2D maximumSourceXY = new Vector2D(FGrayImage.Width, FGrayImage.Height);

	trackingObject.Position = VMath.Map(objectCenterPosition, FMinimumSourceXY, maximumSourceXY, FMinimumDestXY, FMaximumDestXY, TMapMode.Float);
	trackingObject.Scale = VMath.Map(new Vector2D(f.rect.Width, f.rect.Height), FMinimumSourceXY.x, maximumSourceXY.x, 0, 1, TMapMode.Float);

	Objects.Add(trackingObject);
	}
	}
	}
	}
	}

	#region PluginInfo
	[PluginInfo(Name = "ObjectTracking", Category = "EmguCV", Help = "Tracks faces and eyes", Author = "alg, sugokuGENKI", Tags = "")]
	#endregion PluginInfo
	public class ObjectTrackingNode : IPluginEvaluate, IDisposable
	{
	#region fields & pins
	[Input("Image")]
	IDiffSpread<ImageRGB> FPinInImages;

	[Input("Haar Table", DefaultString = "haarcascade_frontalface_alt2.xml", IsSingle = true, StringType = StringType.Filename)]
	IDiffSpread<string> FHaarPath;

	[Input("Enabled", DefaultValue = 1)]
	ISpread<bool> FEnabled;

	[Output("Position")]
	ISpread<ISpread<Vector2D>> FPinOutPositionXY;

	[Output("Scale")]
	ISpread<ISpread<Vector2D>> FPinOutScaleXY;

	[Import]
	ILogger FLogger;

	private readonly Dictionary<int, TrackingInstance> FTrackers = new Dictionary<int,TrackingInstance>();


	#endregion fields & pins

	public void Dispose()
	{
	foreach (KeyValuePair<int, TrackingInstance> tracker in FTrackers)
	tracker.Value.Close();
	}

	//called when data for any output pin is requested
	public void Evaluate(int SpreadMax)
	{

	UpdateTrackers();

	if(FHaarPath.IsChanged)
	{
	if (FHaarPath.SliceCount > 0)
	{
	UpdateHaars();
	}
	}

	if(FPinInImages.IsChanged)
	{
	if(FPinInImages.SliceCount > 0) UpdateImages();
	}

	OutputFaces();
	}

	void UpdateTrackers()
	{
	for (int i = FPinInImages.SliceCount; i < FTrackers.Count; i++)
	{
	FTrackers[i].Close();
	FTrackers.Remove(i);
	}

	for (int i = 0; i < FPinInImages.SliceCount; i++)
	{
	if(FPinInImages[i] == null)
	{
	TrackingInstance instance;
	FTrackers.TryGetValue(i, out instance);
	if(instance != null)
	{
	FTrackers[i].Close();
	FTrackers.Remove(i);
	}
	continue;
	}

	if (!FTrackers.ContainsKey(i))
	{
	if(FPinInImages[i].Img == null) continue;

	FTrackers.Add(i, new TrackingInstance(FPinInImages[i], FHaarPath[i]));
	}
	else if (FPinInImages[i].FrameAttributesChanged)
	{
	FTrackers[i] = new TrackingInstance(FPinInImages[i], FHaarPath[i]);
	}
	}

	}

	void UpdateHaars()
	{
	int count = FTrackers.Count;

	for (int i = 0; i < count; i++)
	{
	try
	{
	FTrackers[i].HaarPath = FHaarPath[i];
	}
	catch
	{
	FLogger.Log(LogType.Error, "Loading Haar failed at slice ", i.ToString());
	}
	}
	}

	void UpdateImages()
	{
	for (int i = 0; i < FTrackers.Count; i++)
	{
	FTrackers[i].Source = FPinInImages[i];
	}
	}

	void OutputFaces()
	{
	FPinOutPositionXY.SliceCount = FTrackers.Count;
	FPinOutScaleXY.SliceCount = FTrackers.Count;

	foreach (KeyValuePair<int, TrackingInstance> tracker in FTrackers)
	{
	int count = tracker.Value.Objects.Count;
	FPinOutPositionXY[tracker.Key].SliceCount = count;
	FPinOutScaleXY[tracker.Key].SliceCount = count;

	for (int i = 0; i < count; i++)
	{
	try
	{
	FPinOutPositionXY[tracker.Key][i] = tracker.Value.Objects[i].Position;
	FPinOutScaleXY[tracker.Key][i] = tracker.Value.Objects[i].Scale;
	}
	catch
	{
	FLogger.Log(LogType.Error, "Desync in threads");
	}
	}
	}
	}
	}
	}