Interface FieldODEIntegrator<T extends CalculusFieldElement<T>>

Type Parameters:
T - the type of the field elements
All Known Subinterfaces:
FieldExplicitRungeKuttaIntegrator<T>
All Known Implementing Classes:
AbstractFieldIntegrator, AdamsBashforthFieldIntegrator, AdamsFieldIntegrator, AdamsMoultonFieldIntegrator, AdaptiveStepsizeFieldIntegrator, ClassicalRungeKuttaFieldIntegrator, DormandPrince54FieldIntegrator, DormandPrince853FieldIntegrator, EmbeddedRungeKuttaFieldIntegrator, EulerFieldIntegrator, GillFieldIntegrator, HighamHall54FieldIntegrator, LutherFieldIntegrator, MidpointFieldIntegrator, MultistepFieldIntegrator, RungeKuttaFieldIntegrator, ThreeEighthesFieldIntegrator

public interface FieldODEIntegrator<T extends CalculusFieldElement<T>>
This interface represents a first order integrator for differential equations.

The classes which are devoted to solve first order differential equations should implement this interface. The problems which can be handled should implement the FieldOrdinaryDifferentialEquation interface.

See Also:
  • Method Details

    • getName

      String getName()
      Get the name of the method.
      Returns:
      name of the method
    • addStepHandler

      void addStepHandler(FieldODEStepHandler<T> handler)
      Add a step handler to this integrator.

      The handler will be called by the integrator for each accepted step.

      Parameters:
      handler - handler for the accepted steps
      See Also:
    • getStepHandlers

      List<FieldODEStepHandler<T>> getStepHandlers()
      Get all the step handlers that have been added to the integrator.
      Returns:
      an unmodifiable collection of the added events handlers
      See Also:
    • clearStepHandlers

      void clearStepHandlers()
      Remove all the step handlers that have been added to the integrator.
      See Also:
    • addEventDetector

      void addEventDetector(FieldODEEventDetector<T> detector)
      Add an event detector to the integrator.
      Parameters:
      detector - event detector
      Since:
      3.0
      See Also:
    • getEventDetectors

      List<FieldODEEventDetector<T>> getEventDetectors()
      Get all the event detectors that have been added to the integrator.
      Returns:
      an unmodifiable collection of the added events detectors
      Since:
      3.0
      See Also:
    • clearEventDetectors

      void clearEventDetectors()
      Remove all the event handlers that have been added to the integrator.
      Since:
      3.0
      See Also:
    • addStepEndHandler

      void addStepEndHandler(FieldODEStepEndHandler<T> handler)
      Add a handler for step ends to the integrator.

      The stepEndOccurred(state, forward) method of the handler will be called at each step end.

      Parameters:
      handler - handler for step ends
      Since:
      3.0
      See Also:
    • getStepEndHandlers

      List<FieldODEStepEndHandler<T>> getStepEndHandlers()
      Get all the handlers for step ends that have been added to the integrator.
      Returns:
      an unmodifiable list of the added step end handlers
      Since:
      3.0
      See Also:
    • clearStepEndHandlers

      void clearStepEndHandlers()
      Remove all the handlers for step ends that have been added to the integrator.
      Since:
      3.0
      See Also:
    • getStepStart

      FieldODEStateAndDerivative<T> getStepStart()
      Get the state at step start time ti.

      This method can be called during integration (typically by the object implementing the differential equations problem) if the value of the current step that is attempted is needed.

      The result is undefined if the method is called outside of calls to integrate.

      Returns:
      state at step start time ti
    • getCurrentSignedStepsize

      T getCurrentSignedStepsize()
      Get the current signed value of the integration stepsize.

      This method can be called during integration (typically by the object implementing the differential equations problem) if the signed value of the current stepsize that is tried is needed.

      The result is undefined if the method is called outside of calls to integrate.

      Returns:
      current signed value of the stepsize
    • setMaxEvaluations

      void setMaxEvaluations(int maxEvaluations)
      Set the maximal number of differential equations function evaluations.

      The purpose of this method is to avoid infinite loops which can occur for example when stringent error constraints are set or when lots of discrete events are triggered, thus leading to many rejected steps.

      Parameters:
      maxEvaluations - maximal number of function evaluations (negative values are silently converted to maximal integer value, thus representing almost unlimited evaluations)
    • getMaxEvaluations

      int getMaxEvaluations()
      Get the maximal number of functions evaluations.
      Returns:
      maximal number of functions evaluations
    • getEvaluations

      int getEvaluations()
      Get the number of evaluations of the differential equations function.

      The number of evaluations corresponds to the last call to the integrate method. It is 0 if the method has not been called yet.

      Returns:
      number of evaluations of the differential equations function
    • integrate

      Integrate the differential equations up to the given time.

      This method solves an Initial Value Problem (IVP).

      Since this method stores some internal state variables made available in its public interface during integration (getCurrentSignedStepsize()), it is not thread-safe.

      Parameters:
      equations - differential equations to integrate
      initialState - initial state (time, primary and secondary state vectors)
      finalTime - target time for the integration (can be set to a value smaller than t0 for backward integration)
      Returns:
      final state, its time will be the same as finalTime if integration reached its target, but may be different if some FieldODEEventHandler stops it at some point.
      Throws:
      MathIllegalArgumentException - if integration step is too small
      MathIllegalStateException - if the number of functions evaluations is exceeded
      MathIllegalArgumentException - if the location of an event cannot be bracketed