Uses of Class
org.apache.commons.math.ode.DerivativeException

Packages that use DerivativeException
org.apache.commons.math.ode This package provides classes to solve Ordinary Differential Equations problems. 
org.apache.commons.math.ode.events This package provides classes to handle discrete events occurring during Ordinary Differential Equations integration. 
org.apache.commons.math.ode.jacobians This package was intended to solve Ordinary Differential Equations problems and also compute derivatives of the solution. 
org.apache.commons.math.ode.nonstiff This package provides classes to solve non-stiff Ordinary Differential Equations problems. 
org.apache.commons.math.ode.sampling This package provides classes to handle sampling steps during Ordinary Differential Equations integration. 
 

Uses of DerivativeException in org.apache.commons.math.ode
 

Methods in org.apache.commons.math.ode that throw DerivativeException
protected  double AbstractIntegrator.acceptStep(AbstractStepInterpolator interpolator, double[] y, double[] yDot, double tEnd)
          Accept a step, triggering events and step handlers.
 void ContinuousOutputModel.append(ContinuousOutputModel model)
          Append another model at the end of the instance.
 void FirstOrderConverter.computeDerivatives(double t, double[] y, double[] yDot)
          Get the current time derivative of the state vector.
 void AbstractIntegrator.computeDerivatives(double t, double[] y, double[] yDot)
          Compute the derivatives and check the number of evaluations.
 void FirstOrderDifferentialEquations.computeDerivatives(double t, double[] y, double[] yDot)
          Get the current time derivative of the state vector.
 void SecondOrderDifferentialEquations.computeSecondDerivatives(double t, double[] y, double[] yDot, double[] yDDot)
          Get the current time derivative of the state vector.
 double[] ContinuousOutputModel.getInterpolatedState()
          Get the state vector of the interpolated point.
 void ContinuousOutputModel.handleStep(StepInterpolator interpolator, boolean isLast)
          Handle the last accepted step.
 double FirstOrderIntegrator.integrate(FirstOrderDifferentialEquations equations, double t0, double[] y0, double t, double[] y)
          Integrate the differential equations up to the given time.
 void SecondOrderIntegrator.integrate(SecondOrderDifferentialEquations equations, double t0, double[] y0, double[] yDot0, double t, double[] y, double[] yDot)
          Integrate the differential equations up to the given time
protected  void MultistepIntegrator.start(double t0, double[] y0, double t)
          Start the integration.
 

Uses of DerivativeException in org.apache.commons.math.ode.events
 

Methods in org.apache.commons.math.ode.events that throw DerivativeException
 boolean CombinedEventsManager.evaluateStep(StepInterpolator interpolator)
          Deprecated. Evaluate the impact of the proposed step on all managed event handlers.
 boolean EventState.evaluateStep(StepInterpolator interpolator)
          Evaluate the impact of the proposed step on the event handler.
 

Uses of DerivativeException in org.apache.commons.math.ode.jacobians
 

Methods in org.apache.commons.math.ode.jacobians that throw DerivativeException
 void ODEWithJacobians.computeJacobians(double t, double[] y, double[] yDot, double[][] dFdY, double[][] dFdP)
          Deprecated. Compute the partial derivatives of ODE with respect to state.
 StepInterpolatorWithJacobians StepInterpolatorWithJacobians.copy()
          Deprecated. Copy the instance.
 double[][] StepInterpolatorWithJacobians.getInterpolatedDyDp()
          Deprecated. Get the partial derivatives of the state vector with respect to the ODE parameters of the interpolated point.
 double[][] StepInterpolatorWithJacobians.getInterpolatedDyDpDot()
          Deprecated. Get the time derivatives of the jacobian of the state vector with respect to the ODE parameters of the interpolated point.
 double[][] StepInterpolatorWithJacobians.getInterpolatedDyDy0()
          Deprecated. Get the partial derivatives of the state vector with respect to the initial state of the interpolated point.
 double[][] StepInterpolatorWithJacobians.getInterpolatedDyDy0Dot()
          Deprecated. Get the time derivatives of the jacobian of the state vector with respect to the initial state of the interpolated point.
 double[] StepInterpolatorWithJacobians.getInterpolatedY()
          Deprecated. Get the state vector of the interpolated point.
 double[] StepInterpolatorWithJacobians.getInterpolatedYDot()
          Deprecated. Get the time derivatives of the state vector of the interpolated point.
 void StepHandlerWithJacobians.handleStep(StepInterpolatorWithJacobians interpolator, boolean isLast)
          Deprecated. Handle the last accepted step
 double FirstOrderIntegratorWithJacobians.integrate(double t0, double[] y0, double[][] dY0dP, double t, double[] y, double[][] dYdY0, double[][] dYdP)
          Deprecated. Integrate the differential equations and the variational equations up to the given time.
 

Uses of DerivativeException in org.apache.commons.math.ode.nonstiff
 

Methods in org.apache.commons.math.ode.nonstiff that throw DerivativeException
 double AdaptiveStepsizeIntegrator.initializeStep(FirstOrderDifferentialEquations equations, boolean forward, int order, double[] scale, double t0, double[] y0, double[] yDot0, double[] y1, double[] yDot1)
          Initialize the integration step.
abstract  double AdamsIntegrator.integrate(FirstOrderDifferentialEquations equations, double t0, double[] y0, double t, double[] y)
          Integrate the differential equations up to the given time.
 double AdamsBashforthIntegrator.integrate(FirstOrderDifferentialEquations equations, double t0, double[] y0, double t, double[] y)
          Integrate the differential equations up to the given time.
 double GraggBulirschStoerIntegrator.integrate(FirstOrderDifferentialEquations equations, double t0, double[] y0, double t, double[] y)
          Integrate the differential equations up to the given time.
abstract  double AdaptiveStepsizeIntegrator.integrate(FirstOrderDifferentialEquations equations, double t0, double[] y0, double t, double[] y)
          Integrate the differential equations up to the given time.
 double AdamsMoultonIntegrator.integrate(FirstOrderDifferentialEquations equations, double t0, double[] y0, double t, double[] y)
          Integrate the differential equations up to the given time.
 double EmbeddedRungeKuttaIntegrator.integrate(FirstOrderDifferentialEquations equations, double t0, double[] y0, double t, double[] y)
          Integrate the differential equations up to the given time.
 double RungeKuttaIntegrator.integrate(FirstOrderDifferentialEquations equations, double t0, double[] y0, double t, double[] y)
          Integrate the differential equations up to the given time.
 

Uses of DerivativeException in org.apache.commons.math.ode.sampling
 

Methods in org.apache.commons.math.ode.sampling that throw DerivativeException
protected abstract  void AbstractStepInterpolator.computeInterpolatedStateAndDerivatives(double theta, double oneMinusThetaH)
          Compute the state and derivatives at the interpolated time.
 StepInterpolator AbstractStepInterpolator.copy()
          Copy the instance.
 StepInterpolator StepInterpolator.copy()
          Copy the instance.
protected  void AbstractStepInterpolator.doFinalize()
          Really finalize the step.
 void AbstractStepInterpolator.finalizeStep()
          Finalize the step.
 double[] AbstractStepInterpolator.getInterpolatedDerivatives()
          Get the derivatives of the state vector of the interpolated point.
 double[] StepInterpolator.getInterpolatedDerivatives()
          Get the derivatives of the state vector of the interpolated point.
 double[] AbstractStepInterpolator.getInterpolatedState()
          Get the state vector of the interpolated point.
 double[] StepInterpolator.getInterpolatedState()
          Get the state vector of the interpolated point.
 double[] NordsieckStepInterpolator.getInterpolatedStateVariation()
          Get the state vector variation from current to interpolated state.
 void FixedStepHandler.handleStep(double t, double[] y, double[] yDot, boolean isLast)
          Handle the last accepted step
 void StepHandler.handleStep(StepInterpolator interpolator, boolean isLast)
          Handle the last accepted step
 void StepNormalizer.handleStep(StepInterpolator interpolator, boolean isLast)
          Handle the last accepted step
 



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