using System; using System.Collections.Generic; using System.Linq; using System.Text; using System.Windows.Forms.DataVisualization.Charting; using System.Windows.Forms; using OpenTK; namespace SCJMapper_V2 { public class BezierPointCollection : List { } /// /// You can use this Series like any other series in the MS web charting control /// http://www.codeproject.com/Articles/169962/Bezier-curve-for-the-Microsoft-Web-Chart-control /// public class BezierSeries : Series { #region fields private int _pointsOnCurve = 50; private BezierPointCollection _bezierPoints = new BezierPointCollection(); #endregion #region properties /// /// Defines how many points the resulting curve will have; /// min = 2, must be an even number /// public int PointsOnCurve { get { return _pointsOnCurve; } set { //min value is 2 if ( value < 2 ) { value = 2; } //it must be an even number if ( value % 2 == 1 ) { value++; } _pointsOnCurve = value; } } /// /// Points that should be used to calculate the bezier graph /// public BezierPointCollection BezierPoints { get { return _bezierPoints; } set { this.Points.Clear( ); if ( value != null ) { _bezierPoints = value; float[] cout = new float[PointsOnCurve*2]; CalcCurve( cout ); //bezier curve points this.ChartType = SeriesChartType.Line; for ( int i = 0; i < cout.Length; i = i + 2 ) { this.Points.AddXY( cout[i], cout[i + 1] ); } } } } public void Invalidate( Control owner) { this.Points.Clear( ); float[] cout = new float[PointsOnCurve*2]; CalcCurve( cout ); //bezier curve points this.ChartType = SeriesChartType.Line; for ( int i = 0; i < cout.Length; i = i + 2 ) { this.Points.AddXY( cout[i], cout[i + 1] ); } owner.Invalidate( ); } private void CalcCurve( float[] cout ) { Vector2[] ptList = new Vector2[_bezierPoints.Count]; //convert bezier points to flat list int pIdx = 0; foreach ( DataPoint point in _bezierPoints ) { ptList[pIdx++] = new Vector2( ( float )point.XValue, ( float )point.YValues[0] ); } //bezier curve calculation int resolution = PointsOnCurve - 1; CalcCurve bc = new BezierInterpolation( ptList, PointsOnCurve ); pIdx = 0; Vector2 pos = Vector2.One; for ( int p = 0; p <= resolution; p++ ) { pos = bc.CalculatePoint( ( float )p / ( float )resolution ); cout[p * 2] = pos.X; cout[p * 2 + 1] = pos.Y; } } #endregion } }