HCI
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bbiwarg-original


			
				
					
						
						
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							using System;
using System.Collections.Generic;
using System.Drawing;
using System.Linq;
using System.Text;
using System.Threading.Tasks;
using bbiwarg.Images;
using bbiwarg.Detectors.FingerDetection;
using bbiwarg.Graphics;
using bbiwarg.Utility;
using Emgu.CV;
using Emgu.CV.Structure;

namespace bbiwarg.Detectors.HandDetection
{
    class HandDetector
    {
        private DepthImage depthImage;
        private EdgeImage edgeImage;
        private List<Finger> fingers;
        public List<Hand> Hands { get; private set; }
        public OutputImage outputImage;

        public HandDetector(DepthImage depthImage, EdgeImage edgeImage, List<Finger> fingers, OutputImage outputImage)
        {
            this.depthImage = depthImage;
            this.edgeImage = edgeImage;
            this.fingers = fingers;
            this.outputImage = outputImage;

            detectHands();
            drawHands();
        }

        private void detectHands()
        {
            int width = depthImage.Width;
            int height = depthImage.Height;
            int maxArea = width * height;
            Image<Gray, byte> image = edgeImage.Image.Copy().Dilate(2).Erode(2).Mul(255);

            //draw top finger slice
            foreach (Finger finger in fingers)
            {
                // TODO: connect contour with other edges
                Contour<Point> contour = finger.getContour();
                image.FillConvexPoly(contour.ToArray(), new Gray(0));
                image.DrawPolyline(finger.getContour().ToArray(), true, new Gray(255), 1);

                FingerSlice slice = finger.SliceTrail.End;
                Vector2D direction = slice.LineSegment.Line.Direction;
                Vector2D start = slice.Start+(Constants.FingerContourMargin+Constants.FingerSliceOverlapFactor)*direction;
                Vector2D end = slice.End-(Constants.FingerContourMargin+Constants.FingerSliceOverlapFactor)*direction;
                image.Draw(new Emgu.CV.Structure.LineSegment2D(start, end), new Gray(0), 2);
                
                //FingerSlice slice = finger.SliceTrail.Slices[1];
                //image.Draw(new Emgu.CV.Structure.LineSegment2D(slice.Start, slice.End), new Gray(255), 2);
            }

            Hands = new List<Hand>();

            foreach (Finger finger in fingers)
            {
                bool newHand = true;
                foreach (Hand hand in Hands)
                {
                    if (hand.isInside(finger.HandPoint))
                    {
                        hand.addFinger(finger);
                        newHand = false;
                        break;
                    }
                }

                if (newHand)
                {
                    Image<Gray, byte> mask = new Image<Gray, byte>(width + 2, height + 2);
                    MCvConnectedComp comp = new MCvConnectedComp();
                    CvInvoke.cvFloodFill(image, finger.HandPoint, new MCvScalar(255), new MCvScalar(1), new MCvScalar(1), out comp, Emgu.CV.CvEnum.CONNECTIVITY.FOUR_CONNECTED, Emgu.CV.CvEnum.FLOODFILL_FLAG.DEFAULT, mask);
                    if (comp.area < maxArea * Constants.HandMaxSize)
                    {
                        Hand hand = new Hand(mask.Copy(new Rectangle(1, 1, width, height)).Mul(255));
                        hand.addFinger(finger);
                        Hands.Add(hand);
                    }
                }
            }
        }

        private void drawHands()
        {
            int maxIndex = Math.Min(3, Hands.Count);
            for (int i = 0; i < maxIndex; i++)
            {
                outputImage.Image[i] = Hands[i].Mask;
            }
        }
    }
}