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double | bifurGaussEvaluate (double x, double mean, double sigmaL, double sigmaR) |
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double | chebychevEvaluate (double *coeffs, unsigned int nCoeffs, double x_in, double xMin, double xMax) |
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double | constraintSumEvaluate (double const *comp, unsigned int compSize) |
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double | efficiencyEvaluate (double effFuncVal, int catIndex, int sigCatIndex) |
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double | effProdEvaluate (double eff, double pdf) |
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double | flexibleInterp (unsigned int code, double low, double high, double boundary, double nominal, double paramVal, double res) |
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double | flexibleInterpEvaluate (unsigned int code, double *params, unsigned int n, double *low, double *high, double boundary, double nominal) |
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double | gaussianEvaluate (double x, double mean, double sigma) |
| Function to evaluate an un-normalized RooGaussian.
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unsigned int | getUniformBinning (double low, double high, double val, unsigned int numBins) |
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double | interpolate6thDegree (double x, double low, double high, double nominal, double boundary) |
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double | interpolate6thDegreeExp (double x, double low, double high, double nominal, double boundary) |
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double | logNormalEvaluate (double x, double k, double m0) |
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double | logNormalEvaluateStandard (double x, double sigma, double mu) |
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double | nllEvaluate (double pdf, double weight, int binnedL, int doBinOffset) |
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double | piecewiseInterpolationEvaluate (unsigned int code, double *low, double *high, double nominal, double *params, unsigned int n) |
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double | poissonEvaluate (double x, double par) |
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template<bool pdfMode = false> |
double | polynomialEvaluate (double const *coeffs, int nCoeffs, int lowestOrder, double x) |
| In pdfMode, a coefficient for the constant term of 1.0 is implied if lowestOrder > 0.
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double | ratioEvaluate (double numerator, double denominator) |
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