Exemple #1
0
 /// <summary>
 /// NOT a flood fill, standin for testing
 /// </summary>
 /// <param name="depthData"></param>
 /// <param name="x"></param>
 /// <param name="y"></param>
 /// <param name="width"></param>
 /// <param name="height"></param>
 /// <param name="mmCutoff"></param>
 /// <returns></returns>
 public static PointCluster FloodFill(DepthImagePixel[] depthData, int x, int y, int width, int height, int mmCutoff)
 {
     HashSet<DepthPoint> resultPoints = new HashSet<DepthPoint>();
     for (int i = 0; i < depthData.Length; i++)
     {
         if (resultPoints.Count > MAX_PIXELS)
             break;
         if (depthData[i].Depth > 400 && depthData[i].Depth < 4000 && depthData[i].Depth < 1000)
         {
             int xIdx = i % width;
             int yIdx = i / width;
             resultPoints.Add(new DepthPoint(xIdx, yIdx, depthData[i].Depth));
         }
     }
     PointCluster result = new PointCluster(resultPoints);
     //Console.WriteLine("Before pruning: " + result.points.Count);
     result.Prune();
     return result;
 }
Exemple #2
0
        /// <summary>
        /// NOT a flood fill, standin for testing
        /// </summary>
        /// <param name="depthData"></param>
        /// <param name="x"></param>
        /// <param name="y"></param>
        /// <param name="width"></param>
        /// <param name="height"></param>
        /// <param name="mmCutoff"></param>
        /// <returns></returns>
        public static PointCluster FloodFill(DepthImagePixel[] depthData, int x, int y, int width, int height, int mmCutoff)
        {
            HashSet <DepthPoint> resultPoints = new HashSet <DepthPoint>();

            for (int i = 0; i < depthData.Length; i++)
            {
                if (resultPoints.Count > MAX_PIXELS)
                {
                    break;
                }
                if (depthData[i].Depth > 400 && depthData[i].Depth < 4000 && depthData[i].Depth < 1000)
                {
                    int xIdx = i % width;
                    int yIdx = i / width;
                    resultPoints.Add(new DepthPoint(xIdx, yIdx, depthData[i].Depth));
                }
            }
            PointCluster result = new PointCluster(resultPoints);

            //Console.WriteLine("Before pruning: " + result.points.Count);
            result.Prune();
            return(result);
        }
Exemple #3
0
        /// <summary>
        /// DO NOT REMOVE
        /// </summary>
        /// <param name="depthData"></param>
        /// <param name="x"></param>
        /// <param name="y"></param>
        /// <param name="width"></param>
        /// <param name="height"></param>
        /// <param name="mmCutoff"></param>
        /// <returns></returns>
        public static PointCluster FloodFill2(DepthImagePixel[] depthData, int x, int y, int width, int height)
        {
            // Queue of tuples storing <newX, newY, previousDepth>
            int mmCutoff = HandTrackingOptionSet.FloodFillDepth;
            Queue<Tuple<int, int, DepthImagePixel>> explorePoints = new Queue<Tuple<int, int, DepthImagePixel>>();
            HashSet<Tuple<int, int>> exploredPoints = new HashSet<Tuple<int,int>>();
            HashSet<DepthPoint> resultPoints = new HashSet<DepthPoint>();

            int jumpdistance = 2;

            // Filtering on points
            // throw out anything closer than 400 and farther than 4000?

            explorePoints.Enqueue(new Tuple<int, int, DepthImagePixel>(x, y, depthData[x + y * width]));
            exploredPoints.Add(new Tuple<int, int>(x, y));
            float baseDepth = depthData[x + y * width].Depth;
            //Console.WriteLine("Base Depth: " + baseDepth);
            while (explorePoints.Count > 0 && resultPoints.Count < MAX_PIXELS)
            {
                Tuple<int, int, DepthImagePixel> currentPoint = explorePoints.Dequeue();
                DepthImagePixel currentDepth = depthData[currentPoint.Item1 + currentPoint.Item2 * width];
                if (//Math.Abs(currentDepth.Depth - currentPoint.Item3.Depth) < mmCutoff &&
                    Math.Abs(currentDepth.Depth - baseDepth) < mmCutoff &&
                    Math.Abs(currentPoint.Item1 - x) < PIXEL_WIDTH_EPSILON && Math.Abs(currentPoint.Item2 - y) < PIXEL_HEIGHT_EPSILON)
                {
                    resultPoints.Add(new DepthPoint(currentPoint.Item1, currentPoint.Item2, currentDepth.Depth));

                    // Add the neighboring points to be explored

                    Tuple<int, int, DepthImagePixel> leftNeighbor = new Tuple<int, int, DepthImagePixel>(currentPoint.Item1 - jumpdistance, currentPoint.Item2, currentDepth);
                    Tuple<int, int, DepthImagePixel> rightNeighbor = new Tuple<int, int, DepthImagePixel>(currentPoint.Item1 + jumpdistance, currentPoint.Item2, currentDepth);
                    Tuple<int, int, DepthImagePixel> topNeighbor = new Tuple<int, int, DepthImagePixel>(currentPoint.Item1, currentPoint.Item2 + jumpdistance, currentDepth);
                    Tuple<int, int, DepthImagePixel> bottomNeighbor = new Tuple<int, int, DepthImagePixel>(currentPoint.Item1, currentPoint.Item2 - jumpdistance, currentDepth);

                    Tuple<int, int> leftNeighborPoint = new Tuple<int, int>(currentPoint.Item1 - jumpdistance, currentPoint.Item2);
                    Tuple<int, int> rightNeighborPoint = new Tuple<int, int>(currentPoint.Item1 + jumpdistance, currentPoint.Item2);
                    Tuple<int, int> topNeighborPoint = new Tuple<int, int>(currentPoint.Item1, currentPoint.Item2 + jumpdistance);
                    Tuple<int, int> bottomNeighborPoint = new Tuple<int, int>(currentPoint.Item1, currentPoint.Item2 - jumpdistance);

                    /*
                    Tuple<int, int, DepthImagePixel> leftNeighbor = new Tuple<int, int, DepthImagePixel>(currentPoint.Item1 - 1, currentPoint.Item2, currentDepth);
                    Tuple<int, int, DepthImagePixel> rightNeighbor = new Tuple<int, int, DepthImagePixel>(currentPoint.Item1 + 1, currentPoint.Item2, currentDepth);
                    Tuple<int, int, DepthImagePixel> topNeighbor = new Tuple<int, int, DepthImagePixel>(currentPoint.Item1, currentPoint.Item2 + 1, currentDepth);
                    Tuple<int, int, DepthImagePixel> bottomNeighbor = new Tuple<int, int, DepthImagePixel>(currentPoint.Item1, currentPoint.Item2 - 1, currentDepth);

                    Tuple<int, int> leftNeighborPoint = new Tuple<int, int>(currentPoint.Item1 - 1, currentPoint.Item2);
                    Tuple<int, int> rightNeighborPoint = new Tuple<int, int>(currentPoint.Item1 + 1, currentPoint.Item2);
                    Tuple<int, int> topNeighborPoint = new Tuple<int, int>(currentPoint.Item1, currentPoint.Item2 + 1);
                    Tuple<int, int> bottomNeighborPoint = new Tuple<int, int>(currentPoint.Item1, currentPoint.Item2 - 1);
                    */
                    if (leftNeighbor.Item1 >= 0 && !exploredPoints.Contains(leftNeighborPoint))
                    {
                        exploredPoints.Add(leftNeighborPoint);
                        explorePoints.Enqueue(leftNeighbor);
                    }
                    if (rightNeighbor.Item1 < width && !exploredPoints.Contains(rightNeighborPoint))
                    {
                        exploredPoints.Add(rightNeighborPoint);
                        explorePoints.Enqueue(rightNeighbor);
                    }
                    if (topNeighbor.Item2 < height && !exploredPoints.Contains(topNeighborPoint))
                    {
                        exploredPoints.Add(topNeighborPoint);
                        explorePoints.Enqueue(topNeighbor);
                    }
                    if (bottomNeighbor.Item2 >= 0 && !exploredPoints.Contains(bottomNeighborPoint))
                    {
                        exploredPoints.Add(bottomNeighborPoint);
                        explorePoints.Enqueue(bottomNeighbor);
                    }
                }
            }
            PointCluster result = new PointCluster(resultPoints);
            result.Prune();
            //exploredPoints.Clear();
            //explorePoints.Clear();
            return result;
        }
Exemple #4
0
        /// <summary>
        /// DO NOT REMOVE
        /// </summary>
        /// <param name="depthData"></param>
        /// <param name="x"></param>
        /// <param name="y"></param>
        /// <param name="width"></param>
        /// <param name="height"></param>
        /// <param name="mmCutoff"></param>
        /// <returns></returns>
        public static PointCluster FloodFill2(DepthImagePixel[] depthData, int x, int y, int width, int height)
        {
            // Queue of tuples storing <newX, newY, previousDepth>
            int mmCutoff = HandTrackingOptionSet.FloodFillDepth;
            Queue <Tuple <int, int, DepthImagePixel> > explorePoints = new Queue <Tuple <int, int, DepthImagePixel> >();
            HashSet <Tuple <int, int> > exploredPoints = new HashSet <Tuple <int, int> >();
            HashSet <DepthPoint>        resultPoints   = new HashSet <DepthPoint>();

            int jumpdistance = 2;

            // Filtering on points
            // throw out anything closer than 400 and farther than 4000?

            explorePoints.Enqueue(new Tuple <int, int, DepthImagePixel>(x, y, depthData[x + y * width]));
            exploredPoints.Add(new Tuple <int, int>(x, y));
            float baseDepth = depthData[x + y * width].Depth;

            //Console.WriteLine("Base Depth: " + baseDepth);
            while (explorePoints.Count > 0 && resultPoints.Count < MAX_PIXELS)
            {
                Tuple <int, int, DepthImagePixel> currentPoint = explorePoints.Dequeue();
                DepthImagePixel currentDepth = depthData[currentPoint.Item1 + currentPoint.Item2 * width];
                if (//Math.Abs(currentDepth.Depth - currentPoint.Item3.Depth) < mmCutoff &&
                    Math.Abs(currentDepth.Depth - baseDepth) < mmCutoff &&
                    Math.Abs(currentPoint.Item1 - x) < PIXEL_WIDTH_EPSILON && Math.Abs(currentPoint.Item2 - y) < PIXEL_HEIGHT_EPSILON)
                {
                    resultPoints.Add(new DepthPoint(currentPoint.Item1, currentPoint.Item2, currentDepth.Depth));

                    // Add the neighboring points to be explored

                    Tuple <int, int, DepthImagePixel> leftNeighbor   = new Tuple <int, int, DepthImagePixel>(currentPoint.Item1 - jumpdistance, currentPoint.Item2, currentDepth);
                    Tuple <int, int, DepthImagePixel> rightNeighbor  = new Tuple <int, int, DepthImagePixel>(currentPoint.Item1 + jumpdistance, currentPoint.Item2, currentDepth);
                    Tuple <int, int, DepthImagePixel> topNeighbor    = new Tuple <int, int, DepthImagePixel>(currentPoint.Item1, currentPoint.Item2 + jumpdistance, currentDepth);
                    Tuple <int, int, DepthImagePixel> bottomNeighbor = new Tuple <int, int, DepthImagePixel>(currentPoint.Item1, currentPoint.Item2 - jumpdistance, currentDepth);

                    Tuple <int, int> leftNeighborPoint   = new Tuple <int, int>(currentPoint.Item1 - jumpdistance, currentPoint.Item2);
                    Tuple <int, int> rightNeighborPoint  = new Tuple <int, int>(currentPoint.Item1 + jumpdistance, currentPoint.Item2);
                    Tuple <int, int> topNeighborPoint    = new Tuple <int, int>(currentPoint.Item1, currentPoint.Item2 + jumpdistance);
                    Tuple <int, int> bottomNeighborPoint = new Tuple <int, int>(currentPoint.Item1, currentPoint.Item2 - jumpdistance);

                    /*
                     * Tuple<int, int, DepthImagePixel> leftNeighbor = new Tuple<int, int, DepthImagePixel>(currentPoint.Item1 - 1, currentPoint.Item2, currentDepth);
                     * Tuple<int, int, DepthImagePixel> rightNeighbor = new Tuple<int, int, DepthImagePixel>(currentPoint.Item1 + 1, currentPoint.Item2, currentDepth);
                     * Tuple<int, int, DepthImagePixel> topNeighbor = new Tuple<int, int, DepthImagePixel>(currentPoint.Item1, currentPoint.Item2 + 1, currentDepth);
                     * Tuple<int, int, DepthImagePixel> bottomNeighbor = new Tuple<int, int, DepthImagePixel>(currentPoint.Item1, currentPoint.Item2 - 1, currentDepth);
                     *
                     * Tuple<int, int> leftNeighborPoint = new Tuple<int, int>(currentPoint.Item1 - 1, currentPoint.Item2);
                     * Tuple<int, int> rightNeighborPoint = new Tuple<int, int>(currentPoint.Item1 + 1, currentPoint.Item2);
                     * Tuple<int, int> topNeighborPoint = new Tuple<int, int>(currentPoint.Item1, currentPoint.Item2 + 1);
                     * Tuple<int, int> bottomNeighborPoint = new Tuple<int, int>(currentPoint.Item1, currentPoint.Item2 - 1);
                     */
                    if (leftNeighbor.Item1 >= 0 && !exploredPoints.Contains(leftNeighborPoint))
                    {
                        exploredPoints.Add(leftNeighborPoint);
                        explorePoints.Enqueue(leftNeighbor);
                    }
                    if (rightNeighbor.Item1 < width && !exploredPoints.Contains(rightNeighborPoint))
                    {
                        exploredPoints.Add(rightNeighborPoint);
                        explorePoints.Enqueue(rightNeighbor);
                    }
                    if (topNeighbor.Item2 < height && !exploredPoints.Contains(topNeighborPoint))
                    {
                        exploredPoints.Add(topNeighborPoint);
                        explorePoints.Enqueue(topNeighbor);
                    }
                    if (bottomNeighbor.Item2 >= 0 && !exploredPoints.Contains(bottomNeighborPoint))
                    {
                        exploredPoints.Add(bottomNeighborPoint);
                        explorePoints.Enqueue(bottomNeighbor);
                    }
                }
            }
            PointCluster result = new PointCluster(resultPoints);

            result.Prune();
            //exploredPoints.Clear();
            //explorePoints.Clear();
            return(result);
        }