public FunctionValue Function(MatrixValue Y, ScalarValue nbins, ScalarValue nParameters) { var nn = nbins.GetIntegerOrThrowException("nbins", Name); var nP = nParameters.GetIntegerOrThrowException("nParameters", Name); var N = Y.Length; var min_idx = Y.Min(); var min = Y[min_idx.Row, min_idx.Column]; var max_idx = Y.Max(); var max = Y[max_idx.Row, max_idx.Column]; var median = YMath.Median(Y); var variance = ScalarValue.Zero; var mean = Y.Sum() / Y.Length; for (var i = 1; i <= Y.Length; i++) { variance += (Y[i] - mean).Square(); } variance /= Y.Length; var delta = (max - min) / nn; var x = new MatrixValue(nn, 1); for (var i = 0; i < nn; i++) { x[i + 1] = min + delta * i; } var histogram = new HistogramFunction(); var fx = histogram.Function(Y, x); var linearfit = new LinfitFunction(Context); var dist = linearfit.Function(x, fx, new FunctionValue((context, argument) => { var _x = (argument as ScalarValue - median / 2) / (variance / 4); var _exp_x_2 = (-_x * _x).Exp(); var result = new MatrixValue(1, nP - 1); for (var i = 0; i < nP - 1; i++) { result[i + 1] = _exp_x_2 * _x.Pow(new ScalarValue(i)); } return result; }, true)); var norm = Y.Length * (max - min) / nbins; var normed_dist = new FunctionValue((context, argument) => { var temp = dist.Perform(context, argument); if (temp is ScalarValue) { return ((ScalarValue)temp) / norm; } else if (temp is MatrixValue) { return ((MatrixValue)temp) / norm; } throw new YAMPOperationInvalidException(); }, true); return normed_dist; }
public FunctionValue Function(MatrixValue Y, ScalarValue nbins, ScalarValue nParameters) { var nn = nbins.GetIntegerOrThrowException("nbins", Name); var nP = nParameters.GetIntegerOrThrowException("nParameters", Name); var N = Y.Length; var min_idx = Y.Min(); var min = Y[min_idx.Row, min_idx.Column]; var max_idx = Y.Max(); var max = Y[max_idx.Row, max_idx.Column]; var median = YMath.Median(Y); var variance = ScalarValue.Zero; var mean = Y.Sum() / Y.Length; for (int i = 1; i <= Y.Length; i++) { variance += (Y[i] - mean).Square(); } variance /= Y.Length; var delta = (max - min) / nn; var x = new MatrixValue(nn, 1); for (int i = 0; i < nn; i++) { x[i + 1] = min + delta * i; } var histogram = new HistogramFunction(); var fx = histogram.Function(Y, x); var linearfit = new LinfitFunction(); var dist = linearfit.Function(x, fx, new FunctionValue((context, argument) => { var _x = (argument as ScalarValue - median / 2) / (variance / 4); var _exp_x_2 = (-_x * _x).Exp(); var result = new MatrixValue(1, nP - 1); for (int i = 0; i < nP - 1; i++) { result[i + 1] = _exp_x_2 * _x.Pow(new ScalarValue(i)); } return(result); }, true)); var norm = Y.Length * (max - min) / nbins; var normed_dist = new FunctionValue((context, argument) => { var temp = dist.Perform(context, argument); if (temp is ScalarValue) { return((temp as ScalarValue) / norm); } else if (temp is MatrixValue) { return((temp as MatrixValue) / norm); } else { throw new YAMPOperationInvalidException(); } }, true); return(normed_dist); }