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Packages that use DerivativeException | |
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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 |
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Methods in org.apache.commons.math.ode that throw DerivativeException | |
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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 |
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Methods in org.apache.commons.math.ode.events that throw DerivativeException | |
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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 |
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Methods in org.apache.commons.math.ode.jacobians that throw DerivativeException | |
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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 |
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Methods in org.apache.commons.math.ode.nonstiff that throw DerivativeException | |
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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 |
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Methods in org.apache.commons.math.ode.sampling that throw DerivativeException | |
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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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