Exemplo n.º 1
0
        // Another solution for DetermineMainGroup (taking 2 groups), but it is not used in this program.
        // It is not applied becuase it may cause a lot of overlap, and solving the overlap is expensive.
        // Compared with the benefits it brings (less loss of information), we decided to abandon this solution.
        #region another solution
        private List <AggregatedDot> DetermineMainGroupSolution2(List <Dot> dots)
        {
            List <AggregatedDot> result    = new List <AggregatedDot>();
            List <Dot>           westDots  = new List <Dot>();
            List <Dot>           northDots = new List <Dot>();
            List <Dot>           southDots = new List <Dot>();
            List <Dot>           eastDots  = new List <Dot>();
            List <Dot>           nonEuDots = new List <Dot>();

            Region mainGroupRegion      = Region.Error;
            Region secondaryGroupRegion = Region.Error;
            int    west  = 0;
            int    east  = 0;
            int    south = 0;
            int    north = 0;
            int    noneu = 0;

            foreach (Dot dot in dots)
            {
                if (dot.Region == Region.West)
                {
                    west++; westDots.Add(dot);
                }
                else if (dot.Region == Region.East)
                {
                    east++; eastDots.Add(dot);
                }
                else if (dot.Region == Region.North)
                {
                    north++; northDots.Add(dot);
                }
                else if (dot.Region == Region.South)
                {
                    south++; southDots.Add(dot);
                }
                else if (dot.Region == Region.NonEU)
                {
                    noneu++; nonEuDots.Add(dot);
                }
            }

            var numbers = new List <double>();

            numbers.Add(west);
            numbers.Add(east);
            numbers.Add(north);
            numbers.Add(south);
            numbers.Add(noneu);

            var        maxNumber     = numbers.Max();
            List <Dot> mainGroupDots = new List <Dot>();

            if (maxNumber == west)
            {
                mainGroupRegion = Region.West; mainGroupDots = westDots;
            }
            else if (maxNumber == east)
            {
                mainGroupRegion = Region.East; mainGroupDots = eastDots;
            }
            else if (maxNumber == north)
            {
                mainGroupRegion = Region.North; mainGroupDots = northDots;
            }
            else if (maxNumber == south)
            {
                mainGroupRegion = Region.South; mainGroupDots = southDots;
            }
            else if (maxNumber == noneu)
            {
                mainGroupRegion = Region.NonEU; mainGroupDots = nonEuDots;
            }

            numbers.Remove(maxNumber);
            maxNumber = numbers.Max();
            List <Dot> secondaryGroupDots = new List <Dot>();

            if (maxNumber == west)
            {
                secondaryGroupRegion = Region.West; secondaryGroupDots = westDots;
            }
            else if (maxNumber == east)
            {
                secondaryGroupRegion = Region.East; secondaryGroupDots = eastDots;
            }
            else if (maxNumber == north)
            {
                secondaryGroupRegion = Region.North; secondaryGroupDots = northDots;
            }
            else if (maxNumber == south)
            {
                secondaryGroupRegion = Region.South; secondaryGroupDots = southDots;
            }
            else if (maxNumber == noneu)
            {
                secondaryGroupRegion = Region.NonEU; secondaryGroupDots = nonEuDots;
            }

            Circle circle = MinimumCoverCircle.GetMinimumCoverCircle(dots);

            result.Add(new AggregatedDot(new Dot(mainGroupRegion, new PointF((float)circle.c.x, (float)circle.c.y)), Math.Max((int)(circle.r * _ratio * Math.Min(_width, _height)), Setting.MinimumAggregationDotRadius)));
            circle = MinimumCoverCircle.GetMinimumCoverCircle(dots);
            result.Add(new AggregatedDot(new Dot(secondaryGroupRegion, new PointF((float)circle.c.x, (float)circle.c.y)), Math.Max((int)(circle.r * _ratio * Math.Min(_width, _height)), Setting.MinimumAggregationDotRadius)));

            return(result);
        }
Exemplo n.º 2
0
        // this determines the main region of people inside a group.
        // in other words, this decides the color of this group.
        // The return list is design for alternative solutions.
        // For this solution, the return list always contains exactly 1 aggregated Dot.
        private List <AggregatedDot> DetermineMainGroupSolution1(List <Dot> dots)
        {
            List <AggregatedDot> result = new List <AggregatedDot>();
            Region mainGroup            = Region.Error;

            int west  = 0;
            int east  = 0;
            int south = 0;
            int north = 0;
            int noneu = 0;

            foreach (Dot dot in dots)
            {
                if (dot.Region == Region.West)
                {
                    west++;
                }
                else if (dot.Region == Region.East)
                {
                    east++;
                }
                else if (dot.Region == Region.North)
                {
                    north++;
                }
                else if (dot.Region == Region.South)
                {
                    south++;
                }
                else if (dot.Region == Region.NonEU)
                {
                    noneu++;
                }
            }
            double westpercentage  = Convert.ToDouble(west) / dots.Count / Math.Sqrt(Setting.WestPecrentage);
            double eastpercentage  = Convert.ToDouble(east) / dots.Count / Math.Sqrt(Setting.EastPercentage);
            double southpercentage = Convert.ToDouble(south) / dots.Count / Math.Sqrt(Setting.SouthPercentage);
            double northpercentage = Convert.ToDouble(north) / dots.Count / Math.Sqrt(Setting.NorthPercentage);
            double noneupercentage = Convert.ToDouble(noneu) / dots.Count / Math.Sqrt(Setting.NonEuPercentage);

            var numbers = new List <double>();

            numbers.Add(westpercentage);
            numbers.Add(eastpercentage);
            numbers.Add(southpercentage);
            numbers.Add(northpercentage);
            numbers.Add(noneupercentage);

            var maxNumber = numbers.Max();

            if (maxNumber == westpercentage)
            {
                mainGroup = Region.West;
            }
            else if (maxNumber == eastpercentage)
            {
                mainGroup = Region.East;
            }
            else if (maxNumber == southpercentage)
            {
                mainGroup = Region.South;
            }
            else if (maxNumber == northpercentage)
            {
                mainGroup = Region.North;
            }
            else if (maxNumber == noneupercentage)
            {
                mainGroup = Region.NonEU;
            }

            Circle circle = MinimumCoverCircle.GetMinimumCoverCircle(dots);

            result.Add(new AggregatedDot(new Dot(mainGroup, new PointF((float)circle.c.x, (float)circle.c.y)), Math.Max((int)(circle.r * _ratio * Math.Min(_width, _height)), Setting.MinimumAggregationDotRadius)));

            return(result);
        }