public void TestAllInterpolations() { Random r = new Random(Environment.TickCount); foreach (string interp in _linearInterpolations) { TearDown(); IInterpolation interpolation = InterpolationFactory.Create(interp); interpolation.Initialize(_times, _rates); Debug.WriteLine($"interpolationType : {interp}"); for (int i = 1; i < 100; ++i) { double time = (i + r.Next(-10000, 10000) / 10000) / 10.0; double interpRate = interpolation.ValueAt(time, true); Debug.WriteLine($"interpolatedRate : {interpRate} Time: {time}"); } int index = 0; foreach (double time in _times) { if (time != 0.0) { double interpRate = interpolation.ValueAt(time, true); double interpValue = _rates[index]; Assert.AreEqual(interpRate, interpValue, 10 - 8); } index++; } } foreach (string interp in _logLinearInterpolations) { TearDown(); double[] exp = SetUp(); double[] temp = new double[exp.Length]; exp.CopyTo(temp, 0); IInterpolation interpolation = InterpolationFactory.Create(interp); interpolation.Initialize(_times, temp); Debug.WriteLine($"interpolationType : {interp}"); for (int i = 1; i < 100; ++i) { double time = (i + r.Next(-10000, 10000) / 10000) / 10.0; double interpRate = interpolation.ValueAt(time, true); Debug.WriteLine($"interpolatedRate : {interpRate} Time: {time}"); } int index = 0; foreach (double time in _times) { if (time != 0.0) { double interpRate = interpolation.ValueAt(time, true); double interpValue = exp[index]; Assert.AreEqual(interpRate, interpValue, 10 - 8); } index++; } } }
/// <summary> /// Gets the Wing volatility /// </summary> /// <param name="volSurface">The vol surface.</param> /// <param name="time">The time.</param> /// <param name="strike">The strike.</param> /// <param name="wingParameterList"></param> /// <returns></returns> public static double GetWingValue(List <OrcWingParameters> wingParameterList, IInterpolation xInterp, double time, double strike) { double eps = 0.0001; IPoint pt1 = new Point2D(time, strike * (1 + eps)); IPoint pt2 = new Point2D(time, strike * (1 - eps)); double[] _years = new double[wingParameterList.Count]; for (int idx = 0; idx < wingParameterList.Count; idx++) { _years[idx] = wingParameterList[idx].TimeToMaturity; } var volArray = new double[wingParameterList.Count]; for (int idx = 0; idx < wingParameterList.Count; idx++) { volArray[idx] = OrcWingVol.Value(strike, wingParameterList[idx]); } double res = 0; if (volArray.Length > 1) { xInterp.Initialize(_years, volArray); res = xInterp.ValueAt(time, false); } else { res = volArray[0]; } return(res); }
/// <summary> /// Interpolated value. /// </summary> /// <param name="x"></param> /// <param name="allowExtrapolation"></param> /// <returns>The interpolated value.</returns> /// <exception cref="ArgumentOutOfRangeException"> /// Thrown when extrapolation has not been allowed and the passed value /// is outside the allowed range. /// </exception> /// <exception cref="InvalidOperationException"> /// Thrown when the class was not properly initialized. /// </exception> public double ValueAt(double x, bool allowExtrapolation) { var baseValue = BaseCurve.GetForward(x); var spreadValue = _curve.ValueAt(x, allowExtrapolation); var spreadDf = baseValue + spreadValue; return(spreadDf); }
/// <summary> /// For any point, there should exist a function value. The point can be multi-dimensional. /// </summary> /// <param name="point"><c>IPoint</c> A point must have at least one dimension. /// <seealso cref="IPoint"/> The interface for a multi-dimensional point.</param> /// <returns>The <c>double</c> function value at the point</returns> public override double Value(IPoint point) { var curve = (DiscreteSpace)GetDiscreteSpace(); var basePoints = curve.GetClosestValues(point); if (basePoints.Count != 4) { throw new System.Exception("Incorrect number of base points."); } var x0 = basePoints[0].Coords; var y0 = basePoints[1].Coords; //yo var x1 = basePoints[2].Coords; //x1 var y1 = basePoints[3].Coords; //y1 var xArray = new double[2]; xArray[0] = (double)x0[0]; xArray[1] = (double)x1[0]; var fxArray = new double[2]; fxArray[0] = (double)x0[2]; fxArray[1] = (double)x1[2]; var yArray = new double[2]; yArray[0] = (double)y0[0]; yArray[1] = (double)y1[0]; var fyArray = new double[2]; fyArray[0] = (double)y0[2]; fyArray[1] = (double)y1[2]; var xyArray = new double[2]; xyArray[0] = (double)x0[1]; xyArray[1] = (double)y0[1]; //_interpolation.Initialize(xArray, fxArray); //var xy = (double) point.Coords[0]; //var xyValue = _interpolation.ValueAt(xy, true); //_interpolation.Initialize(yArray, fyArray); //var yy = (double)point.Coords[0]; //var yyValue = _interpolation.ValueAt(yy, true); //_yInterpolation.Initialize(xyArray, new[] { xyValue, yyValue }); //var result = _yInterpolation.ValueAt((double)point.Coords[1], true); Double xyValue; Double yyValue; if (xArray[0].Equals(xArray[1])) { xyValue = fxArray[0]; } else { Interpolation.Initialize(xArray, fxArray); var xy = (double)point.Coords[0]; xyValue = Interpolation.ValueAt(xy, true); } if (yArray[0].Equals(yArray[1])) { yyValue = fyArray[0]; } else { Interpolation.Initialize(yArray, fyArray); var yy = (double)point.Coords[0]; yyValue = Interpolation.ValueAt(yy, true); } var yxArray = new[] { xyValue, yyValue }; double result; if (xyArray[0] == xyArray[1]) { result = fxArray[0]; } else { YInterpolation.Initialize(xyArray, yxArray); result = YInterpolation.ValueAt((double)point.Coords[1], true); } return(result);//TODO will not work with splines. }