IGLib
1.7.2
The IGLib base library EXTENDED - with other lilbraries and applications.
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This is the complete list of members for Meta.Numerics.Analysis.FunctionMath, including all inherited members.
AbsolutePrecision | Meta.Numerics.Analysis.FunctionMath | privatestatic |
ApproximateJacobian(Func< double[], double[]> f, double[] x0) | Meta.Numerics.Analysis.FunctionMath | inlineprivatestatic |
ComputeCurvature(Func< double[], double > f, double[] x) | Meta.Numerics.Analysis.FunctionMath | inlineprivatestatic |
DefaultExtremaSettings | Meta.Numerics.Analysis.FunctionMath | privatestatic |
FindMaximum(Func< double, double > f, double x) | Meta.Numerics.Analysis.FunctionMath | inlinestatic |
FindMaximum(Func< double, double > f, double x, EvaluationSettings settings) | Meta.Numerics.Analysis.FunctionMath | inlinestatic |
FindMaximum(Func< double, double > f, Interval r) | Meta.Numerics.Analysis.FunctionMath | inlinestatic |
FindMaximum(Func< double, double > f, Interval r, EvaluationSettings settings) | Meta.Numerics.Analysis.FunctionMath | inlinestatic |
FindMaximum(Func< double[], double > f, double[] x, EvaluationSettings settings) | Meta.Numerics.Analysis.FunctionMath | inlinestatic |
FindMinimum(Func< double, double > f, double x) | Meta.Numerics.Analysis.FunctionMath | inlinestatic |
FindMinimum(Func< double, double > f, double x, EvaluationSettings settings) | Meta.Numerics.Analysis.FunctionMath | inlinestatic |
FindMinimum(Functor f, double x, EvaluationSettings settings) | Meta.Numerics.Analysis.FunctionMath | inlineprivatestatic |
FindMinimum(Functor f, double x, double fx, double d, EvaluationSettings settings) | Meta.Numerics.Analysis.FunctionMath | inlineprivatestatic |
FindMinimum(Func< double, double > f, Interval r) | Meta.Numerics.Analysis.FunctionMath | inlinestatic |
FindMinimum(Func< double, double > f, Interval r, EvaluationSettings settings) | Meta.Numerics.Analysis.FunctionMath | inlinestatic |
FindMinimum(Functor f, double a, double b, EvaluationSettings settings) | Meta.Numerics.Analysis.FunctionMath | inlineprivatestatic |
FindMinimum(Functor f, double a, double b, double u, double fu, double v, double fv, double w, double fw, EvaluationSettings settings) | Meta.Numerics.Analysis.FunctionMath | inlineprivatestatic |
FindMinimum(Func< double[], double > f, double[] x) | Meta.Numerics.Analysis.FunctionMath | inlinestatic |
FindMinimum(Func< double[], double > f, double[] x, EvaluationSettings settings) | Meta.Numerics.Analysis.FunctionMath | inlinestatic |
FindZero(Func< double, double > f, double x) | Meta.Numerics.Analysis.FunctionMath | inlinestatic |
FindZero(Func< double, double > f, Interval bracket) | Meta.Numerics.Analysis.FunctionMath | inlinestatic |
FindZero(Func< double, double > f, double x1, double f1, double x2, double f2) | Meta.Numerics.Analysis.FunctionMath | inlineprivatestatic |
FindZero(Func< double[], double[]> f, double[] x0) | Meta.Numerics.Analysis.FunctionMath | inlinestatic |
Integrate(Func< double, double > integrand, Interval range) | Meta.Numerics.Analysis.FunctionMath | inlinestatic |
Integrate(Func< double, double > integrand, Interval range, EvaluationSettings settings) | Meta.Numerics.Analysis.FunctionMath | inlinestatic |
Integrate_Adaptive(IAdaptiveIntegrator integrator, EvaluationSettings s) | Meta.Numerics.Analysis.FunctionMath | inlineprivatestatic |
ParabolicFit(double x1, double f1, double x2, double f2, double x3, double f3, out double x0, out double fpp) | Meta.Numerics.Analysis.FunctionMath | inlineprivatestatic |
RelativePrecision | Meta.Numerics.Analysis.FunctionMath | privatestatic |