public class AdaptedMonoEventDetector extends Object implements EventHandler
This interface is copied from AdaptedEventDetector
and adapted to
multi propagation.
Adapt an EventDetector
to commons-math EventHandler
interface.
A MultiStateVectorInfo
is needed, so that the state vector can be translated to/from a map of
SpacecraftState
.
EventHandler.Action
DECREASING, INCREASING, INCREASING_DECREASING
Constructor and Description |
---|
AdaptedMonoEventDetector(EventDetector detector,
OrbitType orbitType,
PositionAngle angleType,
MultiAttitudeProvider attProviderForces,
MultiAttitudeProvider attProviderEvents,
AbsoluteDate referenceDate,
MultiStateVectorInfo stateVectorInfo,
String satId)
Build a wrapped event detector.
|
Modifier and Type | Method and Description |
---|---|
static EventHandler.Action |
convertOrekitIntoCMAction(EventDetector.Action orekitAction)
Convert Orekit action into Commons-Math action
|
EventHandler.Action |
eventOccurred(double t,
double[] y,
boolean increasing,
boolean forward)
Handle an event and choose what to do next.
|
double |
g(double t,
double[] y)
Compute the value of the switching function.
|
String |
getSatId()
Returns satellite ID.
|
int |
getSlopeSelection()
Get the parameter in charge of the selection of detected events by the slope of the g-function.
|
void |
init(double t0,
double[] y0,
double t)
Initialize event handler at the start of an ODE integration.
|
void |
reinitialize(OrbitType orbitType,
PositionAngle angleType,
MultiAttitudeProvider attProviderForces,
MultiAttitudeProvider attProviderEvents,
AbsoluteDate referenceDate,
MultiStateVectorInfo stateVectorInfo,
String satId)
Reinitialize data.
|
void |
resetState(double t,
double[] y)
Reset the state prior to continue the integration.
|
boolean |
shouldBeRemoved()
This method is called after the step handler has returned and before the next step is started, but only when
EventHandler.eventOccurred(double, double[], boolean, boolean) has been called. |
public AdaptedMonoEventDetector(EventDetector detector, OrbitType orbitType, PositionAngle angleType, MultiAttitudeProvider attProviderForces, MultiAttitudeProvider attProviderEvents, AbsoluteDate referenceDate, MultiStateVectorInfo stateVectorInfo, String satId)
detector
- event detector to wraporbitType
- orbit typeangleType
- position angle typeattProviderForces
- attitude provider for forces computationattProviderEvents
- attitude provider for events computationreferenceDate
- reference date from which t is countedstateVectorInfo
- informations about the global state vectorsatId
- spacecraft Idpublic void reinitialize(OrbitType orbitType, PositionAngle angleType, MultiAttitudeProvider attProviderForces, MultiAttitudeProvider attProviderEvents, AbsoluteDate referenceDate, MultiStateVectorInfo stateVectorInfo, String satId)
orbitType
- orbit typeangleType
- position angle typeattProviderForces
- attitude provider for forces computationattProviderEvents
- attitude provider for events computationreferenceDate
- reference date from which t is countedstateVectorInfo
- informations about the global state vectorsatId
- spacecraft Idpublic void init(double t0, double[] y0, double t)
This method is called once at the start of the integration. It may be used by the event handler to initialize some internal data if needed.
init
in interface EventHandler
t0
- start value of the independent time variabley0
- array containing the start value of the state vectort
- target time for the integrationpublic double g(double t, double[] y)
The discrete events are generated when the sign of this switching function changes. The integrator will take care to change the stepsize in such a way these events occur exactly at step boundaries. The switching function must be continuous in its roots neighborhood (but not necessarily smooth), as the integrator will need to find its roots to locate precisely the events.
g
in interface EventHandler
t
- current value of the independent time variabley
- array containing the current value of the state vectorpublic EventHandler.Action eventOccurred(double t, double[] y, boolean increasing, boolean forward)
This method is called when the integrator has accepted a step ending exactly on a sign change of the function,
just before the step handler itself is called (see below for scheduling). It allows the user to update
his internal data to acknowledge the fact the event has been handled (for example setting a flag in the
differential equations
to switch the derivatives computation in case of discontinuity), or to direct the
integrator to either stop or continue integration, possibly with a reset state or derivatives.
EventHandler.Action.STOP
is returned, the step handler will be called with the isLast
flag of the
handleStep
method set to true and the
integration will be stopped,EventHandler.Action.RESET_STATE
is returned, the resetState
method will be called once the step handler has finished its task, and the integrator will also
recompute the derivatives,EventHandler.Action.RESET_DERIVATIVES
is returned, the integrator will recompute the derivatives,
EventHandler.Action.CONTINUE
is returned, no specific action will be taken (apart from having called this
method) and integration will continue.
The scheduling between this method and the StepHandler
method handleStep() is to call this method first and handleStep
afterwards. This
scheduling allows the integrator to pass true
as the isLast
parameter to the step
handler to make it aware the step will be the last one if this method returns EventHandler.Action.STOP
. As the
interpolator may be used to navigate back throughout the last step (as
StepNormalizer
does for example), user code
called by this method and user code called by step handlers may experience apparently out of order values of the
independent time variable. As an example, if the same user object implements both this EventHandler
interface and the FixedStepHandler
interface, a forward integration may call its eventOccurred
method with t
= 10 first and call its handleStep
method with t = 9 afterwards. Such out of order calls are limited
to the size of the integration step for variable step
handlers
and to the size of the fixed step for fixed step handlers
.
eventOccurred
in interface EventHandler
t
- current value of the independent time variabley
- array containing the current value of the state vectorincreasing
- if true, the value of the switching function increases
when times increases around event (note that increase is measured with respect
to physical time, not with respect to integration which may go backward in time)forward
- if true, the integration variable (time) increases during integrationEventHandler.Action.STOP
, EventHandler.Action.RESET_STATE
, EventHandler.Action.RESET_DERIVATIVES
,
EventHandler.Action.CONTINUE
public boolean shouldBeRemoved()
This method is called after the step handler has returned and before the next step is started, but only when
EventHandler.eventOccurred(double, double[], boolean, boolean)
has been called.
shouldBeRemoved
in interface EventHandler
public void resetState(double t, double[] y)
This method is called after the step handler has returned and before the next step is started, but only when
EventHandler.eventOccurred(double, double[], boolean, boolean)
has itself returned the EventHandler.Action.RESET_STATE
indicator. It allows the user to reset
the state vector for the next step, without perturbing the step handler of the finishing step. If the
EventHandler.eventOccurred(double, double[], boolean, boolean)
never returns the EventHandler.Action.RESET_STATE
indicator, this function will never be
called, and it is safe to leave its body empty.
resetState
in interface EventHandler
t
- current value of the independent time variabley
- array containing the current value of the state vector
the new state should be put in the same arraypublic int getSlopeSelection()
getSlopeSelection
in interface EventHandler
public static final EventHandler.Action convertOrekitIntoCMAction(EventDetector.Action orekitAction)
orekitAction
- orekit actionpublic String getSatId()
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