Uses of Interface
org.hipparchus.analysis.RealFieldUnivariateFunction

Packages that use RealFieldUnivariateFunction

Package	Description
org.hipparchus.analysis	Parent package for common numerical analysis procedures, including root finding, function interpolation and integration.
org.hipparchus.analysis.solvers	Root finding algorithms, for univariate real functions.

Uses of RealFieldUnivariateFunction in org.hipparchus.analysis

Methods in org.hipparchus.analysis that return RealFieldUnivariateFunction

Modifier and Type	Method	Description
default <T extends RealFieldElement<T>> RealFieldUnivariateFunction<T>	FieldUnivariateFunction.toRealFieldUnivariateFunction(Field<T> field)	Convert to a RealFieldUnivariateFunction with a specific type.

Uses of RealFieldUnivariateFunction in org.hipparchus.analysis.solvers

Methods in org.hipparchus.analysis.solvers with parameters of type RealFieldUnivariateFunction

Modifier and Type	Method	Description
static <T extends RealFieldElement<T>> T[]	UnivariateSolverUtils.bracket(RealFieldUnivariateFunction<T> function, T initial, T lowerBound, T upperBound)	This method simply calls bracket(function, initial, lowerBound, upperBound, q, r, maximumIterations) with q and r set to 1.0 and maximumIterations set to Integer.MAX_VALUE.
static <T extends RealFieldElement<T>> T[]	UnivariateSolverUtils.bracket(RealFieldUnivariateFunction<T> function, T initial, T lowerBound, T upperBound, int maximumIterations)	This method simply calls bracket(function, initial, lowerBound, upperBound, q, r, maximumIterations) with q and r set to 1.0.
static <T extends RealFieldElement<T>> T[]	UnivariateSolverUtils.bracket(RealFieldUnivariateFunction<T> function, T initial, T lowerBound, T upperBound, T q, T r, int maximumIterations)	This method attempts to find two values a and b satisfying lowerBound <= a < initial < b <= upperBound f(a) * f(b) <= 0 If f is continuous on [a,b], this means that a and b bracket a root of f.
T	BracketedRealFieldUnivariateSolver.solve(int maxEval, RealFieldUnivariateFunction<T> f, T min, T max, AllowedSolution allowedSolution)	Solve for a zero in the given interval.
T	BracketedRealFieldUnivariateSolver.solve(int maxEval, RealFieldUnivariateFunction<T> f, T min, T max, T startValue, AllowedSolution allowedSolution)	Solve for a zero in the given interval, start at startValue.
T	FieldBracketingNthOrderBrentSolver.solve(int maxEval, RealFieldUnivariateFunction<T> f, T min, T max, AllowedSolution allowedSolution)	Solve for a zero in the given interval.
T	FieldBracketingNthOrderBrentSolver.solve(int maxEval, RealFieldUnivariateFunction<T> f, T min, T max, T startValue, AllowedSolution allowedSolution)	Solve for a zero in the given interval, start at startValue.
default BracketedRealFieldUnivariateSolver.Interval<T>	BracketedRealFieldUnivariateSolver.solveInterval(int maxEval, RealFieldUnivariateFunction<T> f, T min, T max)	Solve for a zero in the given interval and return a tolerance interval surrounding the root.
BracketedRealFieldUnivariateSolver.Interval<T>	BracketedRealFieldUnivariateSolver.solveInterval(int maxEval, RealFieldUnivariateFunction<T> f, T min, T max, T startValue)	Solve for a zero in the given interval and return a tolerance interval surrounding the root.
BracketedRealFieldUnivariateSolver.Interval<T>	FieldBracketingNthOrderBrentSolver.solveInterval(int maxEval, RealFieldUnivariateFunction<T> f, T min, T max, T startValue)	Solve for a zero in the given interval and return a tolerance interval surrounding the root.