Uses of Interface
dev.nm.analysis.differentialequation.ode.ivp.problem.DerivativeFunction
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Uses of DerivativeFunction in dev.nm.analysis.differentialequation.ode.ivp.problem
Methods in dev.nm.analysis.differentialequation.ode.ivp.problem that return DerivativeFunction Modifier and Type Method Description static DerivativeFunctionODE1stOrder. convertToDerivativeFunction(RealVectorFunction F, int dimension)Converts the given vector function to a first order derivative function.DerivativeFunctionODE1stOrderWith2ndDerivative. ddy()Gets y'' = F(x,y).DerivativeFunctionODE1stOrder. dy()Gets the first order derivative function.Constructors in dev.nm.analysis.differentialequation.ode.ivp.problem with parameters of type DerivativeFunction Constructor Description ODE1stOrder(DerivativeFunction dy, Vector y0, double x0, double x1)Constructs a first order ODE with the given vector-valued function and its initial values.ODE1stOrderWith2ndDerivative(DerivativeFunction dy, DerivativeFunction ddy, Vector y0, double x0, double x1)Constructs a first order ODE with initial values. -
Uses of DerivativeFunction in dev.nm.analysis.differentialequation.ode.ivp.solver.multistep.adamsbashforthmoulton
Methods in dev.nm.analysis.differentialequation.ode.ivp.solver.multistep.adamsbashforthmoulton with parameters of type DerivativeFunction Modifier and Type Method Description VectorABMPredictorCorrector. correct(DerivativeFunction dy, double h, double[] x, Vector[] y)VectorABMPredictorCorrector1. correct(DerivativeFunction dy, double h, double[] x, Vector[] y)VectorABMPredictorCorrector2. correct(DerivativeFunction dy, double h, double[] x, Vector[] y)VectorABMPredictorCorrector3. correct(DerivativeFunction dy, double h, double[] x, Vector[] y)VectorABMPredictorCorrector4. correct(DerivativeFunction dy, double h, double[] x, Vector[] y)VectorABMPredictorCorrector5. correct(DerivativeFunction dy, double h, double[] x, Vector[] y)VectorABMPredictorCorrector. predict(DerivativeFunction dy, double h, double[] x, Vector[] y)VectorABMPredictorCorrector1. predict(DerivativeFunction dy, double h, double[] x, Vector[] y)VectorABMPredictorCorrector2. predict(DerivativeFunction dy, double h, double[] x, Vector[] y)VectorABMPredictorCorrector3. predict(DerivativeFunction dy, double h, double[] x, Vector[] y)VectorABMPredictorCorrector4. predict(DerivativeFunction dy, double h, double[] x, Vector[] y)VectorABMPredictorCorrector5. predict(DerivativeFunction dy, double h, double[] x, Vector[] y) -
Uses of DerivativeFunction in dev.nm.analysis.differentialequation.ode.ivp.solver.rungekutta
Methods in dev.nm.analysis.differentialequation.ode.ivp.solver.rungekutta with parameters of type DerivativeFunction Modifier and Type Method Description VectorRungeKutta1. step(DerivativeFunction dy, Vector y0, double x0, double x1, double h)VectorRungeKutta10. step(DerivativeFunction dy, Vector y0, double x0, double x1, double h)VectorRungeKutta2. step(DerivativeFunction dy, Vector y0, double x0, double x1, double h)VectorRungeKutta3. step(DerivativeFunction dy, Vector y0, double x0, double x1, double h)VectorRungeKutta4. step(DerivativeFunction dy, Vector y0, double x0, double x1, double h)VectorRungeKutta5. step(DerivativeFunction dy, Vector y0, double x0, double x1, double h)VectorRungeKutta6. step(DerivativeFunction dy, Vector y0, double x0, double x1, double h)VectorRungeKutta7. step(DerivativeFunction dy, Vector y0, double x0, double x1, double h)VectorRungeKutta8. step(DerivativeFunction dy, Vector y0, double x0, double x1, double h)VectorRungeKuttaStepper. step(DerivativeFunction dy, Vector y0, double x0, double x1, double h)
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