Class AbstractIntegrator

Method Details

• getName

  public String getName()

  Get the name of the method.

  Specified by:

  getName in interface ODEIntegrator

  Returns:

  name of the method

• addStepHandler

  public void addStepHandler(StepHandler handler)

  Add a step handler to this integrator.

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

  Specified by:

  addStepHandler in interface ODEIntegrator

  Parameters:

  handler - handler for the accepted steps

  See Also:

  • ODEIntegrator.getStepHandlers()
  • ODEIntegrator.clearStepHandlers()

• getStepHandlers

  public Collection<StepHandler> getStepHandlers()

  Get all the step handlers that have been added to the integrator.

  Specified by:

  getStepHandlers in interface ODEIntegrator

  Returns:

  an unmodifiable collection of the added events handlers

  See Also:

  • ODEIntegrator.addStepHandler(StepHandler)
  • ODEIntegrator.clearStepHandlers()

• clearStepHandlers

  public void clearStepHandlers()

  Remove all the step handlers that have been added to the integrator.

  Specified by:

  clearStepHandlers in interface ODEIntegrator

  See Also:

  • ODEIntegrator.addStepHandler(StepHandler)
  • ODEIntegrator.getStepHandlers()

• addEventHandler

  public void addEventHandler(EventHandler handler, double maxCheckInterval, double convergence, int maxIterationCount)

  Add an event handler to the integrator. Uses a default UnivariateSolver with an absolute accuracy equal to the given convergence threshold, as root-finding algorithm to detect the state events.

  Specified by:

  addEventHandler in interface ODEIntegrator

  Parameters:

  handler - event handler

  maxCheckInterval - maximal time interval between switching function checks (this interval prevents missing sign changes in case the integration steps becomes very large)

  convergence - convergence threshold in the event time search

  maxIterationCount - upper limit of the iteration count in the event time search

  See Also:

  • ODEIntegrator.getEventHandlers()
  • ODEIntegrator.clearEventHandlers()

• addEventHandler

  public void addEventHandler(EventHandler handler, double maxCheckInterval, double convergence, int maxIterationCount, UnivariateSolver solver)

  Add an event handler to the integrator.

  Specified by:

  addEventHandler in interface ODEIntegrator

  Parameters:

  handler - event handler

  maxCheckInterval - maximal time interval between switching function checks (this interval prevents missing sign changes in case the integration steps becomes very large)

  convergence - convergence threshold in the event time search

  maxIterationCount - upper limit of the iteration count in the event time search

  solver - The root-finding algorithm to use to detect the state events.

  See Also:

  • ODEIntegrator.getEventHandlers()
  • ODEIntegrator.clearEventHandlers()

• getEventHandlers

  public Collection<EventHandler> getEventHandlers()

  Get all the event handlers that have been added to the integrator.

  Specified by:

  getEventHandlers in interface ODEIntegrator

  Returns:

  an unmodifiable collection of the added events handlers

  See Also:

  • ODEIntegrator.addEventHandler(EventHandler, double, double, int)
  • ODEIntegrator.clearEventHandlers()

• clearEventHandlers

  public void clearEventHandlers()

  Remove all the event handlers that have been added to the integrator.

  Specified by:

  clearEventHandlers in interface ODEIntegrator

  See Also:

  • ODEIntegrator.addEventHandler(EventHandler, double, double, int)
  • ODEIntegrator.getEventHandlers()

• getCurrentStepStart

  public double getCurrentStepStart()

  Get the current value of the step start time t_i.

  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.

  Specified by:

  getCurrentStepStart in interface ODEIntegrator

  Returns:

  current value of the step start time t_i

• getCurrentSignedStepsize

  public double 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.

  Specified by:

  getCurrentSignedStepsize in interface ODEIntegrator

  Returns:

  current signed value of the stepsize

• setMaxEvaluations

  public 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.

  Specified by:

  setMaxEvaluations in interface ODEIntegrator

  Parameters:

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

• getMaxEvaluations

  public int getMaxEvaluations()

  Get the maximal number of functions evaluations.

  Specified by:

  getMaxEvaluations in interface ODEIntegrator

  Returns:

  maximal number of functions evaluations

• getEvaluations

  public 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.

  Specified by:

  getEvaluations in interface ODEIntegrator

  Returns:

  number of evaluations of the differential equations function

• initIntegration

  protected void initIntegration(double t0, double[] y0, double t)

  Prepare the start of an integration.

  Parameters:

  t0 - start value of the independent time variable

  y0 - array containing the start value of the state vector

  t - target time for the integration

• setEquations

  protected void setEquations(ExpandableStatefulODE equations)

  Set the equations.

  Parameters:

  equations - equations to set

• getExpandable

  protected ExpandableStatefulODE getExpandable()

  Get the differential equations to integrate.

  Returns:

  differential equations to integrate

  Since:

  3.2

• getEvaluationsCounter

  @Deprecated protected Incrementor getEvaluationsCounter()

  Deprecated.

  as of 3.6 replaced with getCounter()

  Get the evaluations counter.

  Returns:

  evaluations counter

  Since:

  3.2

• getCounter

  protected IntegerSequence.Incrementor getCounter()

  Get the evaluations counter.

  Returns:

  evaluations counter

  Since:

  3.6

• integrate

  public double integrate(FirstOrderDifferentialEquations equations, double t0, double[] y0, double t, double[] y) throws DimensionMismatchException, NumberIsTooSmallException, MaxCountExceededException, NoBracketingException

  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 (ODEIntegrator.getCurrentSignedStepsize()), it is not thread-safe.

  Specified by:

  integrate in interface FirstOrderIntegrator

  Parameters:

  equations - differential equations to integrate

  t0 - initial time

  y0 - initial value of the state vector at t0

  t - target time for the integration (can be set to a value smaller than t0 for backward integration)

  y - placeholder where to put the state vector at each successful step (and hence at the end of integration), can be the same object as y0

  Returns:

  stop time, will be the same as target time if integration reached its target, but may be different if some EventHandler stops it at some point.

  Throws:

  DimensionMismatchException - if arrays dimension do not match equations settings

  NumberIsTooSmallException - if integration step is too small

  MaxCountExceededException - if the number of functions evaluations is exceeded

  NoBracketingException - if the location of an event cannot be bracketed

• integrate

  public abstract void integrate(ExpandableStatefulODE equations, double t) throws NumberIsTooSmallException, DimensionMismatchException, MaxCountExceededException, NoBracketingException

  Integrate a set of differential equations up to the given time.

  This method solves an Initial Value Problem (IVP).

  The set of differential equations is composed of a main set, which can be extended by some sets of secondary equations. The set of equations must be already set up with initial time and partial states. At integration completion, the final time and partial states will be available in the same object.

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

  Parameters:

  equations - complete set of differential equations to integrate

  t - target time for the integration (can be set to a value smaller than t0 for backward integration)

  Throws:

  NumberIsTooSmallException - if integration step is too small

  DimensionMismatchException - if the dimension of the complete state does not match the complete equations sets dimension

  MaxCountExceededException - if the number of functions evaluations is exceeded

  NoBracketingException - if the location of an event cannot be bracketed

• computeDerivatives

  public void computeDerivatives(double t, double[] y, double[] yDot) throws MaxCountExceededException, DimensionMismatchException, NullPointerException

  Compute the derivatives and check the number of evaluations.

  Parameters:

  t - current value of the independent time variable

  y - array containing the current value of the state vector

  yDot - placeholder array where to put the time derivative of the state vector

  Throws:

  MaxCountExceededException - if the number of functions evaluations is exceeded

  DimensionMismatchException - if arrays dimensions do not match equations settings

  NullPointerException - if the ODE equations have not been set (i.e. if this method is called outside of a call to integrate(ExpandableStatefulODE, double) or integrate(FirstOrderDifferentialEquations, double, double[], double, double[]))

• setStateInitialized

  protected void setStateInitialized(boolean stateInitialized)

  Set the stateInitialized flag.

  This method must be called by integrators with the value false before they start integration, so a proper lazy initialization is done automatically on the first step.

  Parameters:

  stateInitialized - new value for the flag

  Since:

  2.2

• acceptStep

  protected double acceptStep(AbstractStepInterpolator interpolator, double[] y, double[] yDot, double tEnd) throws MaxCountExceededException, DimensionMismatchException, NoBracketingException

  Accept a step, triggering events and step handlers.

  Parameters:

  interpolator - step interpolator

  y - state vector at step end time, must be reset if an event asks for resetting or if an events stops integration during the step

  yDot - placeholder array where to put the time derivative of the state vector

  tEnd - final integration time

  Returns:

  time at end of step

  Throws:

  MaxCountExceededException - if the interpolator throws one because the number of functions evaluations is exceeded

  NoBracketingException - if the location of an event cannot be bracketed

  DimensionMismatchException - if arrays dimensions do not match equations settings

  Since:

  2.2

• sanityChecks

  protected void sanityChecks(ExpandableStatefulODE equations, double t) throws NumberIsTooSmallException, DimensionMismatchException

  Check the integration span.

  Parameters:

  equations - set of differential equations

  t - target time for the integration

  Throws:

  NumberIsTooSmallException - if integration span is too small

  DimensionMismatchException - if adaptive step size integrators tolerance arrays dimensions are not compatible with equations settings