## Uses of Classorg.apache.commons.math4.exception.NoBracketingException

• Packages that use NoBracketingException
Package Description
org.apache.commons.math4.analysis.solvers
Root finding algorithms, for univariate real functions.
org.apache.commons.math4.ode
This package provides classes to solve Ordinary Differential Equations problems.
org.apache.commons.math4.ode.events
This package provides classes to handle discrete events occurring during Ordinary Differential Equations integration.
org.apache.commons.math4.ode.nonstiff
This package provides classes to solve non-stiff Ordinary Differential Equations problems.
• ### Uses of NoBracketingException in org.apache.commons.math4.analysis.solvers

Methods in org.apache.commons.math4.analysis.solvers that throw NoBracketingException
Modifier and Type Method and Description
static double[] UnivariateSolverUtils.bracket(UnivariateFunction function, double initial, double lowerBound, double 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 double[] UnivariateSolverUtils.bracket(UnivariateFunction function, double initial, double lowerBound, double upperBound, double q, double 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.
static double[] UnivariateSolverUtils.bracket(UnivariateFunction function, double initial, double lowerBound, double upperBound, int maximumIterations)
This method simply calls bracket(function, initial, lowerBound, upperBound, q, r, maximumIterations) with q and r set to 1.0.
protected double RiddersSolver.doSolve()
Method for implementing actual optimization algorithms in derived classes.
protected double MullerSolver.doSolve()
Method for implementing actual optimization algorithms in derived classes.
protected double SecantSolver.doSolve()
Method for implementing actual optimization algorithms in derived classes.
protected double BracketingNthOrderBrentSolver.doSolve()
Method for implementing actual optimization algorithms in derived classes.
protected double MullerSolver2.doSolve()
Method for implementing actual optimization algorithms in derived classes.
double LaguerreSolver.doSolve()
Method for implementing actual optimization algorithms in derived classes.
static double UnivariateSolverUtils.forceSide(int maxEval, UnivariateFunction f, BracketedUnivariateSolver<UnivariateFunction> bracketing, double baseRoot, double min, double max, AllowedSolution allowedSolution)
Force a root found by a non-bracketing solver to lie on a specified side, as if the solver were a bracketing one.
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.
double BracketingNthOrderBrentSolver.solve(int maxEval, UnivariateFunction f, double min, double max, AllowedSolution allowedSolution)
Solve for a zero in the given interval.
double BracketingNthOrderBrentSolver.solve(int maxEval, UnivariateFunction f, double min, double max, double startValue, AllowedSolution allowedSolution)
Solve for a zero in the given interval, start at startValue.
static double UnivariateSolverUtils.solve(UnivariateFunction function, double x0, double x1)
Convenience method to find a zero of a univariate real function.
static double UnivariateSolverUtils.solve(UnivariateFunction function, double x0, double x1, double absoluteAccuracy)
Convenience method to find a zero of a univariate real function.
static void UnivariateSolverUtils.verifyBracketing(UnivariateFunction function, double lower, double upper)
Check that the endpoints specify an interval and the end points bracket a root.
• ### Uses of NoBracketingException in org.apache.commons.math4.ode

Methods in org.apache.commons.math4.ode that throw NoBracketingException
Modifier and Type Method and Description
protected FieldODEStateAndDerivative<T> AbstractFieldIntegrator.acceptStep(AbstractFieldStepInterpolator<T> interpolator, T tEnd)
Accept a step, triggering events and step handlers.
protected double AbstractIntegrator.acceptStep(AbstractStepInterpolator interpolator, double[] y, double[] yDot, double tEnd)
Accept a step, triggering events and step handlers.
abstract void AbstractIntegrator.integrate(ExpandableStatefulODE equations, double t)
Integrate a set of differential equations up to the given time.
FieldODEStateAndDerivative<T> FirstOrderFieldIntegrator.integrate(FieldExpandableODE<T> equations, FieldODEState<T> initialState, T finalTime)
Integrate the differential equations up to the given time.
double AbstractIntegrator.integrate(FirstOrderDifferentialEquations equations, double t0, double[] y0, double t, double[] y)
Integrate the differential equations up to the given time.
double FirstOrderIntegrator.integrate(FirstOrderDifferentialEquations equations, double t0, double[] y0, double t, double[] y)
Integrate the differential equations up to the given time.
protected void MultistepIntegrator.start(double t0, double[] y0, double t)
Start the integration.
protected void MultistepFieldIntegrator.start(FieldExpandableODE<T> equations, FieldODEState<T> initialState, T t)
Start the integration.
• ### Uses of NoBracketingException in org.apache.commons.math4.ode.events

Methods in org.apache.commons.math4.ode.events that throw NoBracketingException
Modifier and Type Method and Description
boolean FieldEventState.evaluateStep(FieldStepInterpolator<T> interpolator)
Evaluate the impact of the proposed step on the event handler.
boolean EventState.evaluateStep(StepInterpolator interpolator)
Evaluate the impact of the proposed step on the event handler.
• ### Uses of NoBracketingException in org.apache.commons.math4.ode.nonstiff

Methods in org.apache.commons.math4.ode.nonstiff that throw NoBracketingException
Modifier and Type Method and Description
void AdamsMoultonIntegrator.integrate(ExpandableStatefulODE equations, double t)
Integrate a set of differential equations up to the given time.
void GraggBulirschStoerIntegrator.integrate(ExpandableStatefulODE equations, double t)
Integrate a set of differential equations up to the given time.
abstract void AdamsIntegrator.integrate(ExpandableStatefulODE equations, double t)
Integrate a set of differential equations up to the given time.
void RungeKuttaIntegrator.integrate(ExpandableStatefulODE equations, double t)
Integrate a set of differential equations up to the given time.
void AdamsBashforthIntegrator.integrate(ExpandableStatefulODE equations, double t)
Integrate a set of differential equations up to the given time.
abstract void AdaptiveStepsizeIntegrator.integrate(ExpandableStatefulODE equations, double t)
Integrate a set of differential equations up to the given time.
void EmbeddedRungeKuttaIntegrator.integrate(ExpandableStatefulODE equations, double t)
Integrate a set of differential equations up to the given time.
FieldODEStateAndDerivative<T> AdamsMoultonFieldIntegrator.integrate(FieldExpandableODE<T> equations, FieldODEState<T> initialState, T finalTime)
Integrate the differential equations up to the given time.
FieldODEStateAndDerivative<T> EmbeddedRungeKuttaFieldIntegrator.integrate(FieldExpandableODE<T> equations, FieldODEState<T> initialState, T finalTime)
Integrate the differential equations up to the given time.
FieldODEStateAndDerivative<T> AdamsBashforthFieldIntegrator.integrate(FieldExpandableODE<T> equations, FieldODEState<T> initialState, T finalTime)
Integrate the differential equations up to the given time.
FieldODEStateAndDerivative<T> RungeKuttaFieldIntegrator.integrate(FieldExpandableODE<T> equations, FieldODEState<T> initialState, T finalTime)
Integrate the differential equations up to the given time.
abstract FieldODEStateAndDerivative<T> AdamsFieldIntegrator.integrate(FieldExpandableODE<T> equations, FieldODEState<T> initialState, T finalTime)
Integrate the differential equations up to the given time.