コード例 #1
0
        private MCvBox2D GetMinAreaRect(Contour <Point> contour)
        {
            Point[]  points  = contour.ToArray();
            PointF[] pointsF = new PointF[points.Length];

            for (int i = 0; i < points.Length; i++)
            {
                pointsF[i] = new PointF(
                    points[i].X,
                    points[i].Y);
            }

            return(PointCollection.MinAreaRect(pointsF));
        }
コード例 #2
0
        public static MCvBox2D SquareFittingWithAngle(PointF[] points)
        {
            MCvBox2D box = PointCollection.MinAreaRect(points);

            return(box);
        }
コード例 #3
0
        public static Rectangle SquareFitting(PointF[] points)
        {
            MCvBox2D box = PointCollection.MinAreaRect(points);

            return(box.MinAreaRect());
        }
コード例 #4
0
        private void ExtractDoor(NiFile model, Matrix4 worldMatrix, int fixtureid)
        {
            // take everything that is under a doorX node and use it for the hull...
            if (model == null)
            {
                return;
            }

            var doorVertices = new Dictionary <string, List <Vector3> >();

            // find all trimeshs and tristrips
            foreach (var obj in model.ObjectsByRef.Values)
            {
                var avNode = obj as NiAVObject;
                if (avNode == null)
                {
                    continue;
                }

                if (!IsMatched(avNode, new[] { "visible", "collidee", "collide" }))
                {
                    continue;
                }

                var doorName = FindMatchRegex(avNode, new[] { DoorRegex });

                if (doorName == string.Empty)
                {
                    continue;
                }

                Vector3[]  vertices  = null;
                Triangle[] triangles = null;

                TryExtractTriShape(obj, worldMatrix, false, false, ref vertices, ref triangles);

                if (vertices == null)
                {
                    TryExtractTriStrips(obj, worldMatrix, false, false, ref vertices, ref triangles);
                }

                if (vertices == null)
                {
                    continue;
                }

                if (!doorVertices.ContainsKey(doorName))
                {
                    doorVertices.Add(doorName, new List <Vector3>());
                }
                doorVertices[doorName].AddRange(vertices);
            }


            foreach (var key in doorVertices.Keys)
            {
                float hullMinZ = float.MaxValue;
                float hullMaxZ = float.MinValue;

                var verts = doorVertices[key].ToArray();

                var pts = new List <PointF>();
                foreach (Vector3 vert in verts)
                {
                    hullMinZ = Math.Min(vert.Z, hullMinZ);
                    hullMaxZ = Math.Max(vert.Z, hullMaxZ);
                    pts.Add(new PointF(vert.X, vert.Y));
                }

                MCvBox2D box = PointCollection.MinAreaRect(pts.ToArray());

                float maxSize = box.size.Width;
                maxSize = Math.Max(maxSize, box.size.Height);
                maxSize = Math.Max(maxSize, hullMaxZ - hullMinZ);

                // There are some weird door ids in e.g. Jordheim (z120): "door01:0" e.g. -- how do they translate to IDs?
                var doorID  = Regex.Match(key.Replace(":", ""), "([0-9]+)").Groups[1].Value;
                var heading = ((box.angle + (box.size.Width < box.size.Height ? 0.0 : 90.0 + 90.0)) * DEGREES_TO_HEADING) % 0x1000;
                if (heading < 0)
                {
                    heading += 0x1000;
                }
                DoorWriter.WriteDoor(Zone.ID * 1000000 + fixtureid * 100 + int.Parse(doorID), model.FileName, (int)box.center.X, (int)box.center.Y, (int)hullMinZ, (int)heading, (int)maxSize);


                // Make sure we have a min of 20f for doors on width/height
                box.size.Width  = Math.Max(20f, box.size.Width);
                box.size.Height = Math.Max(20f, box.size.Height);

                // Make sure the door touches the ground...
                hullMinZ -= 16.0f;

                var boxVertices = box.GetVertices();
                GeomSetWriter.WriteConvexVolume(boxVertices.Length, hullMinZ, hullMaxZ, CEM.GeomSetWriter.eAreas.Door);

                foreach (var vert in boxVertices)
                {
                    GeomSetWriter.WriteConvexVolumeVertex(new Vector3(vert.X, vert.Y, hullMinZ)); // debug
                }
            }
        }
        //-----------------------------------------------------------------------------------------
        private void Draw_Gesture_Features()
        {
            #region drawing PalmBoundingCircle
            try
            {
                // find bounding rec for PalmPointsCollection
                PalmBoundingCircle = PointCollection.MinEnclosingCircle(PalmPointsCollection);
            }
            catch
            {
                return;
            }

            // we treat center of the circle as the center of the palm
            imgMain.Draw(PalmBoundingCircle, new Bgr(Color.Violet), 2);
            imgMain.Draw(new CircleF(new PointF(PalmBoundingCircle.Center.X, PalmBoundingCircle.Center.Y), 2), new Bgr(Color.Violet), 5);
            #endregion

            #region drawing FingerBoundingBox
            // find bounding rec for FingerPointsCollection
            MCvBox2D box = PointCollection.MinAreaRect(FingerPointsCollection);
            FingerBoundingBox = box.MinAreaRect();
            // we treat center of the circle as the center of the palm
            imgMain.Draw(FingerBoundingBox, new Bgr(Color.Cyan), 2);
            imgMain.Draw(new CircleF(new PointF(box.center.X, box.center.Y), 2), new Bgr(Color.Cyan), 5);
            #endregion

            #region drawing all finger points
            for (int i = 0; i < FingerPointsCollection.Count(); i++)
            {
                imgMain.Draw(new CircleF(FingerPointsCollection[i], 2), new Bgr(Color.Yellow), 5);
            }
            #endregion

            #region drawing all palm points
            for (int i = 0; i < PalmPointsCollection.Count(); i++)
            {
                imgMain.Draw(new CircleF(PalmPointsCollection[i], 2), new Bgr(Color.Red), 5);
            }
            #endregion

            //#region drawing lines from fingers to center
            //for (int i = 0; i < FingerPointsCollection.Count(); i++)
            //{
            //    imgMain.Draw(new LineSegment2DF(FingerPointsCollection[i], PalmBoundingCircle.Center), new Bgr(Color.Yellow), 1);
            //}
            //#endregion

            //#region drawing lines from palm to center
            //for (int i = 0; i < PalmPointsCollection.Count(); i++)
            //{
            //    imgMain.Draw(new LineSegment2DF(PalmPointsCollection[i], PalmBoundingCircle.Center), new Bgr(Color.Red), 1);
            //}
            //#endregion

            //#region Filtered drawing lines from fingers to center
            //for (int i = 0; i < FingerPointsCollection.Count(); i++)
            //{
            //    if (FingerPointsCollection[i].Y < PalmBoundingCircle.Center.Y)
            //    {
            //        imgMain.Draw(new LineSegment2DF(FingerPointsCollection[i], PalmBoundingCircle.Center), new Bgr(Color.Yellow), 1);
            //    }
            //}
            //#endregion

            //#region Filtered drawing lines from palm to center
            //for (int i = 0; i < PalmPointsCollection.Count(); i++)
            //{
            //    if (PalmPointsCollection[i].Y < PalmBoundingCircle.Center.Y)
            //    {
            //        imgMain.Draw(new LineSegment2DF(PalmPointsCollection[i], PalmBoundingCircle.Center), new Bgr(Color.Red), 1);
            //    }
            //}
            //#endregion
        }
コード例 #6
0
        public void Rotation()
        {
            //Bitmap src = new Bitmap(@"C:\Users\nhonarva\Documents\strabo-command-line-master\strabo-command-line-master\Strabo.CommandLine\data\intermediate\136_p_4_559_1292_s_0_525_1280_72_24.png");
            //Rectangle rect = new Rectangle(0, 0, 100, 50);
            //Bitmap cropped = CropRotatedRect(src, rect, -30.5f, true);
            //cropped.Save(@"C:\Users\nhonarva\Documents\sample.png");


            List <PointF> points = new List <PointF>();

            PointF[] pts;
            //PointF[] pts=new PointF[4];
            //pts[0] = new PointF(40.5f, 60.5f);
            //pts[1] = new PointF(34f, 44f);
            //pts[2] = new PointF(39f, 70f);
            //pts[3] = new PointF(14f, 45f);


            Bitmap            sourceImage  = new Bitmap(@"C:\Users\ronaldiscool\Documents\GitHub\strabo-command-line\Strabo.CommandLine\data\intermediate\138_p_6_1482_1009_s_0_1469_965_28_84.png"); /// this image belongs to map 1920-4 intermediate result
            Image <Bgr, byte> source       = new Image <Bgr, byte>(@"C:\Users\ronaldiscool\Documents\GitHub\strabo-command-line\Strabo.CommandLine\data\intermediate\138_p_6_1482_1009_s_0_1469_965_28_84.png");
            Image <Bgr, byte> source1      = new Image <Bgr, byte>(@"C:\Users\ronaldiscool\Documents\GitHub\strabo-command-line\Strabo.CommandLine\data\intermediate\SourceMapImage_ms.png");
            Bitmap            sourceImage1 = new Bitmap(@"C:\Users\ronaldiscool\Documents\GitHub\strabo-command-line\Strabo.CommandLine\data\intermediate\BinaryOutput.png");
            Image <Bgr, byte> img          = new Image <Bgr, byte>(400, 400, new Bgr(Color.White));

            for (int i = 0; i < sourceImage.Width; i++)
            {
                for (int j = 0; j < sourceImage.Height; j++)
                {
                    Color color = sourceImage.GetPixel(i, j);
                    if (!sourceImage.GetPixel(i, j).Name.Equals("ffffffff"))
                    {
                        PointF point = new PointF(i, j);
                        points.Add(point);
                    }
                }
            }

            string filename = Path.GetFileNameWithoutExtension((@"C:\Users\ronaldiscool\Documents\GitHub\strabo-command-line\Strabo.CommandLine\data\intermediate\138_p_6_1482_1009_s_0_1469_965_28_84.png"));

            // string filename = Path.GetFileNameWithoutExtension(filePaths[i]);
            String[] splitTokens     = filename.Split('_');
            int      numberOfLetters = 5;
            //if (splitTokens[6].Equals("0"))
            //{
            int x = Convert.ToInt32(splitTokens[7]);
            int y = Convert.ToInt32(splitTokens[8]);

            //    int width=Convert.ToInt32(splitTokens[9]);
            //    int height=Convert.ToInt32(splitTokens[10]);
            //    int estimatedSizeOfOneLetter = width/numberOfLetters;
            //    double pixelToSizeRatio = (double)points.Count / (double)(width * height);

            //    Point left = new Point();
            //    int leftPixelCount = 0;
            //    double leftPixelToSizeRatio = 0;
            //    left.X = x - estimatedSizeOfOneLetter;
            //    left.Y = y;

            //    Point right = new Point();
            //    int rightPixelCount = 0;
            //    double rightPixelToSizeRatio = 0;
            //    right.X = x + width;
            //    right.Y = y;

            //    do
            //    {

            //        for (int i = left.X; i < left.X+estimatedSizeOfOneLetter; i++)
            //        {
            //            for (int j = left.Y; j < left.Y+height; j++)
            //            {
            //                Color color = sourceImage1.GetPixel(i, j);
            //                if (!sourceImage1.GetPixel(i, j).Name.Equals("ffffffff"))
            //                {
            //                    leftPixelCount++;
            //                 //   sourceImage1.SetPixel(i, j, Color.Green);
            //                }
            //                sourceImage1.SetPixel(i, j, Color.Green);
            //            }
            //        }

            //        leftPixelToSizeRatio = (double)leftPixelCount / (double)(estimatedSizeOfOneLetter * height);
            //        left.X -= estimatedSizeOfOneLetter;
            //        leftPixelCount = 0;

            //    } while (leftPixelToSizeRatio > 0.1);


            //    do
            //    {
            //        for (int i = right.X; i < right.X + estimatedSizeOfOneLetter; i++)
            //        {
            //            for (int j = right.Y; j < right.Y + height; j++)
            //            {
            //                Color color = sourceImage1.GetPixel(i, j);
            //                if (!sourceImage1.GetPixel(i, j).Name.Equals("ffffffff"))
            //                {
            //                    rightPixelCount++;
            //                 //   sourceImage1.SetPixel(i, j, Color.Green);
            //                }
            //                sourceImage1.SetPixel(i, j, Color.Green);
            //            }
            //        }

            //        rightPixelToSizeRatio = (double)(rightPixelCount) / (double)(estimatedSizeOfOneLetter * height);
            //        right.X += estimatedSizeOfOneLetter;
            //        rightPixelCount = 0;

            //    } while (rightPixelToSizeRatio > 0.2);

            //}

            //  else
            //  {



            pts = points.ToArray();
            Emgu.CV.Structure.MCvBox2D box = PointCollection.MinAreaRect(pts);
            Rectangle boundingbox          = PointCollection.BoundingRectangle(pts);


            img.Draw(box, new Bgr(Color.Red), 1);
            img.Draw(boundingbox, new Bgr(Color.Green), 2);
            source.Draw(box, new Bgr(Color.Red), 1);
            source.Draw(boundingbox, new Bgr(Color.Green), 2);

            Emgu.CV.Structure.MCvBox2D boxinoriginalImage = box;
            boxinoriginalImage.center.X += x - boundingbox.X;       /// 63=originalboundingbox.x(1069)(I used result of intermediate image)-boundingbox.x(21)
            boxinoriginalImage.center.Y += y - boundingbox.Y;       //// 175=originalboundingbox.x(1211)(I used result of intermediate image)-boundingbox.x(21)

            double angleInRadius = (((-1) * box.angle) * Math.PI) / 180;

            //  double height = (box.size.Height) / Math.Sin(angleInRadius);
            //  double width = (box.size.Width) / Math.Sin(angleInRadius);

            double addToX = (((box.size.Width) * 3) / 4) * Math.Cos(angleInRadius);      // I have multiplied height to 3/4 because we have four letter in recognized image and I want to find the center of added part for boundingbox
            double addToY = (((box.size.Width) * 3) / 4) * Math.Sin(angleInRadius);

            double OriginalpixelToSizeRatio = points.Count() / (box.size.Height * box.size.Width);

            Emgu.CV.Structure.MCvBox2D addedArea = box;

            addedArea.center.X += x - boundingbox.X + (float)addToX;
            addedArea.center.Y += y - boundingbox.Y - (float)addToY;

            addedArea.size.Width = (float)((box.size.Width) / 2);

            source1.Draw(boxinoriginalImage, new Bgr(Color.Green), 2);
            source1.Draw(addedArea, new Bgr(Color.Red), 2);



            //  PointF[] vertices = boxinoriginalImage.GetVertices();
            PointF[] AddedAreaVertices    = addedArea.GetVertices();
            int      AddedAreaPixelNumber = 0;

            double[] slope = new double[4];
            double[] b     = new double[4];
            for (int i = 0; i < AddedAreaVertices.Length; i++)
            {
                if (i < AddedAreaVertices.Length - 1)
                {
                    slope[i] = (AddedAreaVertices[i].Y - AddedAreaVertices[i + 1].Y) / (AddedAreaVertices[i].X - AddedAreaVertices[i + 1].X);
                }

                else
                {
                    slope[i] = (AddedAreaVertices[i].Y - AddedAreaVertices[0].Y) / (AddedAreaVertices[i].X - AddedAreaVertices[0].X);
                }

                b[i] = -(AddedAreaVertices[i].Y - slope[i] * AddedAreaVertices[i].X);
            }

            for (int i = 0; i < sourceImage1.Width; i++)
            {
                for (int j = 0; j < sourceImage1.Height; j++)
                {
                    Color    color  = sourceImage1.GetPixel(i, j);
                    double[] result = new double[4];
                    for (int k = 0; k < result.Length; k++)
                    {
                        result[k] = j - slope[k] * i + b[k];
                    }

                    if (result[0] < 0 && result[1] > 0 && result[2] > 0 && result[3] < 0)       /// explore if pixel is in bounding box of Min Area Rectangle
                    {
                        //  sourceImage1.SetPixel(i, j, Color.Green);
                        if (!sourceImage1.GetPixel(i, j).Name.Equals("ffffffff"))
                        {
                            AddedAreaPixelNumber++;
                        }
                        sourceImage1.SetPixel(i, j, Color.Green);
                    }
                }
            }

            double addedAreaSize             = addedArea.size.Height * addedArea.size.Width;
            double AddedAreaPixelToSizeRatio = (double)(AddedAreaPixelNumber) / (addedArea.size.Height * addedArea.size.Width);



            //   PointF[] vertices = boxinoriginalImage.GetVertices();
            ////   PointF[] otherVertices = addedArea.GetVertices();


            //   double[] slope = new double[4];
            //   double[] b=new double[4];
            //   for (int i = 0; i < vertices.Length;i++)
            //   {
            //       if (i < vertices.Length - 1)
            //           slope[i] = (vertices[i].Y - vertices[i + 1].Y) / (vertices[i].X - vertices[i + 1].X);

            //       else
            //           slope[i] = (vertices[i].Y - vertices[0].Y) / (vertices[i].X - vertices[0].X);

            //       b[i] = -(vertices[i].Y - slope[i] * vertices[i].X);
            //   }

            //       for (int i = 0; i < sourceImage.Width; i++)
            //       {
            //           for (int j = 0; j < sourceImage.Height; j++)
            //           {
            //               Color color = sourceImage.GetPixel(i, j);
            //               double[] result = new double[4];
            //               for (int k = 0; k < result.Length;k++)
            //                   result[k] = j - slope[k] * i + b[k];

            //                   if (result[0] < 0  && result[1] > 0 && result[2] > 0 && result[3] < 0)   /// explore if pixel is in bounding box of Min Area Rectangle
            //                   {
            //                       sourceImage.SetPixel(i, j, Color.Green);
            //                   }
            //           }
            //       }

            foreach (PointF p in pts)
            {
                img.Draw(new CircleF(p, 2), new Bgr(Color.Green), 1);
            }
            //   }
            sourceImage.Save(@"C:\Users\ronaldiscool\Documents\separationResult.png");
            img.Save(@"C:\Users\ronaldiscool\Documents\sample.png");
            source.Save(@"C:\Users\ronaldiscool\Documents\sample1.png");
            source1.Save(@"C:\Users\ronaldiscool\Documents\sample2.png");
            sourceImage1.Save(@"C:\Users\ronaldiscool\Documents\sample3.png");
        }
        public void AddNeighbor(List <TessResult> tessOcrResultList, string inputpath)
        {
            string        file_name            = "";
            List <PointF> points               = new List <PointF>();
            Boolean       Continue             = true;
            int           Counter              = 0;
            SVM           SVMForClassification = new SVM(@"C:\Users\nhonarva\Documents\MachineLearning\sampleTraintData\");

            for (int k = 0; k < tessOcrResultList.Count; k++)  /// add neighbors of each bounding box
            {
                points = new List <PointF>();
                string TotalPixelToSizeRatio = "";
                file_name = tessOcrResultList[k].fileName;
                Bitmap ResultOfTextDetection;

                string[] split = file_name.Split('_');
                if (split[6].Equals("0"))
                {
                    ResultOfTextDetection = new Bitmap(inputpath + file_name + ".png");
                }
                else
                {
                    string newFileName = "";
                    split[6] = "0";
                    for (int j = 0; j < split.Length; j++)
                    {
                        if (j < split.Length - 1)
                        {
                            newFileName += split[j] + "_";
                        }
                        else
                        {
                            newFileName += split[j];
                        }
                    }
                    ResultOfTextDetection = new Bitmap(inputpath + newFileName + ".png");
                }
                Bitmap OriginalBinaryImage = new Bitmap(inputpath + "BinaryOutput.png");


                for (int i = 0; i < ResultOfTextDetection.Width; i++)    //// scan image to find foreground pixels
                {
                    for (int j = 0; j < ResultOfTextDetection.Height; j++)
                    {
                        Color color = ResultOfTextDetection.GetPixel(i, j);
                        if (!ResultOfTextDetection.GetPixel(i, j).Name.Equals("ffffffff"))
                        {
                            PointF point = new PointF(i, j);
                            points.Add(point);
                        }
                    }
                }

                String[] splitTokens = file_name.Split('_');
                int      numberOfRecognizedLetters = tessOcrResultList[k].tess_word3.Length - 2; /// -2 because we have \n\n at the end of word

                int x      = Convert.ToInt32(tessOcrResultList[k].x);
                int y      = Convert.ToInt32(tessOcrResultList[k].y);
                int width  = Convert.ToInt32(tessOcrResultList[k].w);
                int height = Convert.ToInt32(tessOcrResultList[k].h);

                if (splitTokens[6].Equals("0"))     /// bounding box with slope 0 (horizental)
                {
                    int    estimatedSizeOfOneLetter = width / numberOfRecognizedLetters;
                    double pixelToSizeRatio         = (double)(points.Count) / (double)(width * height);
                    TotalPixelToSizeRatio = Convert.ToString(Math.Round((decimal)pixelToSizeRatio, 2));

                    Point  left                 = new Point(); /// left coordinate for box at left hand side of blob
                    int    leftPixelCount       = 0;
                    double leftPixelToSizeRatio = 0;
                    left.X = x - estimatedSizeOfOneLetter;
                    left.Y = y;

                    Point  right                 = new Point(); //// right coordinate for box at right hand side of blob
                    int    rightPixelCount       = 0;
                    double rightPixelToSizeRatio = 0;
                    right.X = x + width;
                    right.Y = y;

                    Continue = true;

                    if (char.IsUpper(tessOcrResultList[k].tess_word3.ToCharArray()[0]))
                    {
                        Continue = false;
                    }
                    if (left.X < 0)
                    {
                        Continue = false;
                    }
                    //   continue;

                    int AddedAreaWidth = estimatedSizeOfOneLetter;

                    Counter = 0;
                    while (Continue)
                    {
                        if ((left.X - estimatedSizeOfOneLetter) < 0)
                        {
                            AddedAreaWidth = left.X;
                        }

                        int[,] AddedAreaPoints = new int[AddedAreaWidth, height];

                        for (int i = left.X; i < left.X + AddedAreaWidth; i++)
                        {
                            for (int j = left.Y; j < left.Y + height; j++)
                            {
                                if ((!OriginalBinaryImage.GetPixel(i, j).Name.Equals("ffffffff")))
                                {
                                    leftPixelCount++;
                                    AddedAreaPoints[i - left.X, j - left.Y] = 1;
                                }
                                else
                                {
                                    AddedAreaPoints[i - left.X, j - left.Y] = 0;
                                }
                            }
                        }


                        Counter++;
                        leftPixelToSizeRatio = (double)(leftPixelCount) / (double)(AddedAreaWidth * height);
                        QGISJsonNeighbothood.AddFeature(left.X, left.Y, left.X + AddedAreaWidth, left.Y, left.X + AddedAreaWidth, left.Y + tessOcrResultList[k].h, left.X, left.Y + tessOcrResultList[k].h, tessOcrResultList[k].id + "-" + Convert.ToString(Counter), Convert.ToString(Math.Round((decimal)leftPixelToSizeRatio, 2)), -1);
                        left.X        -= estimatedSizeOfOneLetter;
                        leftPixelCount = 0;
                        if (left.X < 0)
                        {
                            Continue = false;
                        }
                        if (leftPixelToSizeRatio < 0.2)
                        {
                            Continue = false;
                        }
                        if (leftPixelToSizeRatio > 0.2)
                        {
                            SVMForClassification.Classification(AddedAreaPoints, tessOcrResultList[k].id + "-" + Convert.ToString(Counter));
                        }
                    }


                    Continue = true;

                    if (right.X > OriginalBinaryImage.Width)
                    {
                        Continue = false;
                    }

                    AddedAreaWidth = estimatedSizeOfOneLetter;
                    Counter        = 0;

                    while (Continue)
                    {
                        if ((right.X + estimatedSizeOfOneLetter) > OriginalBinaryImage.Width)
                        {
                            AddedAreaWidth = OriginalBinaryImage.Width - right.X;
                        }

                        int[,] AddedAreaPoints = new int[AddedAreaWidth, height];

                        for (int i = right.X; i < right.X + AddedAreaWidth; i++)
                        {
                            for (int j = right.Y; j < right.Y + height; j++)
                            {
                                if (!OriginalBinaryImage.GetPixel(i, j).Name.Equals("ffffffff"))
                                {
                                    rightPixelCount++;
                                    AddedAreaPoints[i - right.X, j - right.Y] = 1;
                                }
                                else
                                {
                                    AddedAreaPoints[i - right.X, j - right.Y] = 0;
                                }
                            }
                        }
                        Counter++;
                        rightPixelToSizeRatio = (double)(rightPixelCount) / (double)(AddedAreaWidth * height);
                        QGISJsonNeighbothood.AddFeature(right.X, right.Y, right.X + AddedAreaWidth, right.Y, right.X + AddedAreaWidth, right.Y + tessOcrResultList[k].h, right.X, right.Y + tessOcrResultList[k].h, tessOcrResultList[k].id + "-" + Convert.ToString(Counter), Convert.ToString(Math.Round((decimal)rightPixelToSizeRatio, 2)), -1);
                        right.X        += estimatedSizeOfOneLetter;
                        rightPixelCount = 0;
                        if (right.X > OriginalBinaryImage.Width)
                        {
                            Continue = false;
                        }
                        if (rightPixelToSizeRatio < 0.2)
                        {
                            Continue = false;
                        }
                        if (rightPixelToSizeRatio > 0.2)
                        {
                            SVMForClassification.Classification(AddedAreaPoints, tessOcrResultList[k].id + "-" + Convert.ToString(Counter));
                        }
                    }
                    //    }

                    QGISJsonNeighbothood.AddFeature(x, y, x + width, y, x + width, y + height, x, y + height, tessOcrResultList[k].id, TotalPixelToSizeRatio, -1);
                }
                else
                {
                    PointF[] pts;
                    pts = points.ToArray();
                    Emgu.CV.Structure.MCvBox2D box = PointCollection.MinAreaRect(pts);
                    Rectangle boundingbox          = PointCollection.BoundingRectangle(pts);

                    Emgu.CV.Structure.MCvBox2D boxinoriginalImage = box;
                    boxinoriginalImage.center.X += x - boundingbox.X;   /// 63=originalboundingbox.x(1069)(I used result of intermediate image)-boundingbox.x(21)
                    boxinoriginalImage.center.Y += y - boundingbox.Y;
                    PointF[] vertices         = boxinoriginalImage.GetVertices();
                    double   pixelToSizeRatio = (double)(points.Count) / (double)(box.size.Width * box.size.Height);
                    TotalPixelToSizeRatio = Convert.ToString(Math.Round((decimal)pixelToSizeRatio, 2));
                    QGISJsonNeighbothood.AddFeature(vertices[0].X, vertices[0].Y, vertices[1].X, vertices[1].Y, vertices[2].X, vertices[2].Y, vertices[3].X, vertices[3].Y, tessOcrResultList[k].id, TotalPixelToSizeRatio, -1);

                    for (int m = 1; m < 4; m++)
                    {
                        Emgu.CV.Structure.MCvBox2D addedArea = box;

                        if (box.size.Height > box.size.Width)   ///Non horizental bounding boxes that slope of bounding box is less than zero
                        {
                            double angleInRadius = ((90 + box.angle) * Math.PI) / 180;


                            double addToX = (((box.size.Height) * ((m - 1) * 2 + numberOfRecognizedLetters + 1)) / (numberOfRecognizedLetters * 2)) * Math.Cos(angleInRadius);  // I have multiplied height to 3/4 because we have four letter in recognized image and I want to find the center of added part for boundingbox
                            double addToY = (((box.size.Height) * ((m - 1) * 2 + numberOfRecognizedLetters + 1)) / (numberOfRecognizedLetters * 2)) * Math.Sin(angleInRadius);


                            addedArea.center.X += (x - boundingbox.X) + (float)addToX;
                            addedArea.center.Y += (y - boundingbox.Y) + (float)addToY;

                            addedArea.size.Height = (float)((box.size.Height) / numberOfRecognizedLetters);
                        }

                        else    ///Non horizental bounding boxes that slope of bounding box is greater than zero
                        {
                            double angleInRadius = (((-1) * box.angle) * Math.PI) / 180;


                            double addToX = (((box.size.Width) * ((m - 1) * 2 + numberOfRecognizedLetters + 1)) / (numberOfRecognizedLetters * 2)) * Math.Cos(angleInRadius);  // I have multiplied height to 3/4 because we have four letter in recognized image and I want to find the center of added part for boundingbox
                            double addToY = (((box.size.Width) * ((m - 1) * 2 + numberOfRecognizedLetters + 1)) / (numberOfRecognizedLetters * 2)) * Math.Sin(angleInRadius);


                            addedArea.center.X += (x - boundingbox.X) - (float)addToX;
                            addedArea.center.Y += (y - boundingbox.Y) + (float)addToY;

                            addedArea.size.Width = (float)((box.size.Width) / numberOfRecognizedLetters);
                        }
                        PointF[] AddedAreaVertices = addedArea.GetVertices();

                        PointF ExploreAddedArea_MinPoint = AddedAreaVertices[0];
                        PointF ExploreAddedArea_MaxPoint = AddedAreaVertices[0];

                        for (int i = 1; i < AddedAreaVertices.Length; i++)
                        {
                            if (AddedAreaVertices[i].X < ExploreAddedArea_MinPoint.X)
                            {
                                ExploreAddedArea_MinPoint.X = AddedAreaVertices[i].X;
                            }

                            if (AddedAreaVertices[i].Y < ExploreAddedArea_MinPoint.Y)
                            {
                                ExploreAddedArea_MinPoint.Y = AddedAreaVertices[i].Y;
                            }

                            if (AddedAreaVertices[i].X > ExploreAddedArea_MaxPoint.X)
                            {
                                ExploreAddedArea_MaxPoint.X = AddedAreaVertices[i].X;
                            }

                            if (AddedAreaVertices[i].Y > ExploreAddedArea_MaxPoint.Y)
                            {
                                ExploreAddedArea_MaxPoint.Y = AddedAreaVertices[i].Y;
                            }
                        }


                        int AddedAreaPixelNumber = 0;

                        double[] slope = new double[4];
                        double[] b     = new double[4];
                        for (int i = 0; i < AddedAreaVertices.Length; i++)    //// find four lines that create min area rectangle bounding box
                        {
                            if (i < AddedAreaVertices.Length - 1)
                            {
                                slope[i] = (AddedAreaVertices[i].Y - AddedAreaVertices[i + 1].Y) / (AddedAreaVertices[i].X - AddedAreaVertices[i + 1].X);
                            }

                            else
                            {
                                slope[i] = (AddedAreaVertices[i].Y - AddedAreaVertices[0].Y) / (AddedAreaVertices[i].X - AddedAreaVertices[0].X);
                            }

                            b[i] = -(AddedAreaVertices[i].Y - slope[i] * AddedAreaVertices[i].X);
                        }

                        for (int i = Convert.ToInt32(ExploreAddedArea_MinPoint.X); i < Convert.ToInt32(ExploreAddedArea_MaxPoint.X) + 1; i++)
                        {
                            for (int j = Convert.ToInt32(ExploreAddedArea_MinPoint.Y); j < Convert.ToInt32(ExploreAddedArea_MaxPoint.Y) + 1; j++)
                            {
                                if ((i < OriginalBinaryImage.Width) && (j < OriginalBinaryImage.Width) && (i > 0) && (j > 0))
                                {
                                    Color    color  = OriginalBinaryImage.GetPixel(i, j);
                                    double[] result = new double[4];
                                    for (int l = 0; l < result.Length; l++)
                                    {
                                        result[l] = j - slope[l] * i + b[l];
                                    }

                                    if (result[0] < 0 && result[1] > 0 && result[2] > 0 && result[3] < 0)   /// explore if pixel is in bounding box of Min Area Rectangle
                                    {
                                        //  sourceImage1.SetPixel(i, j, Color.Green);
                                        if (!OriginalBinaryImage.GetPixel(i, j).Name.Equals("ffffffff"))
                                        {
                                            AddedAreaPixelNumber++;
                                        }
                                    }
                                }
                                else
                                {
                                    break;
                                }
                            }
                        }

                        double addedAreaSize             = addedArea.size.Height * addedArea.size.Width;
                        double AddedAreaPixelToSizeRatio = (double)(AddedAreaPixelNumber) / (addedArea.size.Height * addedArea.size.Width);


                        QGISJsonNeighbothood.AddFeature(AddedAreaVertices[0].X, AddedAreaVertices[0].Y, AddedAreaVertices[1].X, AddedAreaVertices[1].Y, AddedAreaVertices[2].X, AddedAreaVertices[2].Y, AddedAreaVertices[3].X, AddedAreaVertices[3].Y, tessOcrResultList[k].id, Convert.ToString(Math.Round((decimal)AddedAreaPixelToSizeRatio, 2)), -1);
                    }


                    for (int m = 1; m < 4; m++)
                    {
                        Emgu.CV.Structure.MCvBox2D addedArea = box;

                        if (box.size.Height > box.size.Width)   ///Non horizental bounding boxes that slope of bounding box is less than zero
                        {
                            double angleInRadius = ((90 + box.angle) * Math.PI) / 180;


                            double addToX = (((box.size.Height) * ((m - 1) * 2 + numberOfRecognizedLetters + 1)) / (numberOfRecognizedLetters * 2)) * Math.Cos(angleInRadius);  // I have multiplied height to 3/4 because we have four letter in recognized image and I want to find the center of added part for boundingbox
                            double addToY = (((box.size.Height) * ((m - 1) * 2 + numberOfRecognizedLetters + 1)) / (numberOfRecognizedLetters * 2)) * Math.Sin(angleInRadius);


                            addedArea.center.X += (x - boundingbox.X) - (float)addToX;
                            addedArea.center.Y += (y - boundingbox.Y) - (float)addToY;

                            addedArea.size.Height = (float)((box.size.Height) / numberOfRecognizedLetters);
                        }

                        else    ///Non horizental bounding boxes that slope of bounding box is greater than zero
                        {
                            double angleInRadius = (((-1) * box.angle) * Math.PI) / 180;


                            double addToX = (((box.size.Width) * ((m - 1) * 2 + numberOfRecognizedLetters + 1)) / (numberOfRecognizedLetters * 2)) * Math.Cos(angleInRadius);  // I have multiplied height to 3/4 because we have four letter in recognized image and I want to find the center of added part for boundingbox
                            double addToY = (((box.size.Width) * ((m - 1) * 2 + numberOfRecognizedLetters + 1)) / (numberOfRecognizedLetters * 2)) * Math.Sin(angleInRadius);


                            addedArea.center.X += (x - boundingbox.X) + (float)addToX;
                            addedArea.center.Y += (y - boundingbox.Y) - (float)addToY;

                            addedArea.size.Width = (float)((box.size.Width) / numberOfRecognizedLetters);
                        }
                        PointF[] AddedAreaVertices = addedArea.GetVertices();

                        PointF ExploreAddedArea_MinPoint = AddedAreaVertices[0];
                        PointF ExploreAddedArea_MaxPoint = AddedAreaVertices[0];

                        for (int i = 1; i < AddedAreaVertices.Length; i++)
                        {
                            if (AddedAreaVertices[i].X < ExploreAddedArea_MinPoint.X)
                            {
                                ExploreAddedArea_MinPoint.X = AddedAreaVertices[i].X;
                            }

                            if (AddedAreaVertices[i].Y < ExploreAddedArea_MinPoint.Y)
                            {
                                ExploreAddedArea_MinPoint.Y = AddedAreaVertices[i].Y;
                            }

                            if (AddedAreaVertices[i].X > ExploreAddedArea_MaxPoint.X)
                            {
                                ExploreAddedArea_MaxPoint.X = AddedAreaVertices[i].X;
                            }

                            if (AddedAreaVertices[i].Y > ExploreAddedArea_MaxPoint.Y)
                            {
                                ExploreAddedArea_MaxPoint.Y = AddedAreaVertices[i].Y;
                            }
                        }


                        int AddedAreaPixelNumber = 0;

                        double[] slope = new double[4];
                        double[] b     = new double[4];
                        for (int i = 0; i < AddedAreaVertices.Length; i++)    //// find four lines that create min area rectangle bounding box
                        {
                            if (i < AddedAreaVertices.Length - 1)
                            {
                                slope[i] = (AddedAreaVertices[i].Y - AddedAreaVertices[i + 1].Y) / (AddedAreaVertices[i].X - AddedAreaVertices[i + 1].X);
                            }

                            else
                            {
                                slope[i] = (AddedAreaVertices[i].Y - AddedAreaVertices[0].Y) / (AddedAreaVertices[i].X - AddedAreaVertices[0].X);
                            }

                            b[i] = -(AddedAreaVertices[i].Y - slope[i] * AddedAreaVertices[i].X);
                        }

                        for (int i = Convert.ToInt32(ExploreAddedArea_MinPoint.X); i < Convert.ToInt32(ExploreAddedArea_MaxPoint.X) + 1; i++)
                        {
                            for (int j = Convert.ToInt32(ExploreAddedArea_MinPoint.Y); j < Convert.ToInt32(ExploreAddedArea_MaxPoint.Y) + 1; j++)
                            {
                                if ((i < OriginalBinaryImage.Width) && (j < OriginalBinaryImage.Width) && (i > 0) && (j > 0))
                                {
                                    Color    color  = OriginalBinaryImage.GetPixel(i, j);
                                    double[] result = new double[4];
                                    for (int l = 0; l < result.Length; l++)
                                    {
                                        result[l] = j - slope[l] * i + b[l];
                                    }

                                    if (result[0] < 0 && result[1] > 0 && result[2] > 0 && result[3] < 0)   /// explore if pixel is in bounding box of Min Area Rectangle
                                    {
                                        //  sourceImage1.SetPixel(i, j, Color.Green);
                                        if (!OriginalBinaryImage.GetPixel(i, j).Name.Equals("ffffffff"))
                                        {
                                            AddedAreaPixelNumber++;
                                        }
                                    }
                                }
                                else
                                {
                                    break;
                                }
                            }
                        }

                        double addedAreaSize             = addedArea.size.Height * addedArea.size.Width;
                        double AddedAreaPixelToSizeRatio = (double)(AddedAreaPixelNumber) / (addedArea.size.Height * addedArea.size.Width);


                        QGISJsonNeighbothood.AddFeature(AddedAreaVertices[0].X, AddedAreaVertices[0].Y, AddedAreaVertices[1].X, AddedAreaVertices[1].Y, AddedAreaVertices[2].X, AddedAreaVertices[2].Y, AddedAreaVertices[3].X, AddedAreaVertices[3].Y, tessOcrResultList[k].id, Convert.ToString(Math.Round((decimal)AddedAreaPixelToSizeRatio, 2)), -1);
                    }
                }
            }
            QGISJsonNeighbothood.WriteGeojsonFileByPixels();
        }