public class MultiPatriusStepNormalizer extends Object implements MultiPatriusStepHandler
This class is copied from PatriusStepNormalizer
and adapted to
multi propagation.
This class wraps an object implementing MultiPatriusFixedStepHandler
into a MultiPatriusStepHandler
.
It mirrors the StepNormalizer
interface from commons-math
but provides a space-dynamics interface to the methods.
Modified to take into account propagation direction (in time). Lines 111 to 115 Cf A-1031.
Constructor and Description |
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MultiPatriusStepNormalizer(double hIn,
MultiPatriusFixedStepHandler handlerIn)
Simple constructor.
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Modifier and Type | Method and Description |
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void |
handleStep(MultiPatriusStepInterpolator interpolator,
boolean isLast)
Handle the last accepted step.
|
void |
init(Map<String,SpacecraftState> s0,
AbsoluteDate t)
Initialize step handler at the start of a propagation.
|
public MultiPatriusStepNormalizer(double hIn, MultiPatriusFixedStepHandler handlerIn)
hIn
- fixed time step (sign is not used)handlerIn
- fixed time step handler to wrappublic void init(Map<String,SpacecraftState> s0, AbsoluteDate t)
This method is called once at the start of the propagation. It may be used by the step handler to initialize some internal data if needed.
init
in interface MultiPatriusStepHandler
s0
- map of initial statest
- target time for the integrationpublic void handleStep(MultiPatriusStepInterpolator interpolator, boolean isLast) throws PropagationException
handleStep
in interface MultiPatriusStepHandler
interpolator
- interpolator for the last accepted step. For
efficiency purposes, the various propagators reuse the same
object on each call, so if the instance wants to keep it across
all calls (for example to provide at the end of the propagation a
continuous model valid throughout the propagation range), it
should build a local copy using the clone method and store this
copy.isLast
- true if the step is the last onePropagationException
- this exception is propagated to the
caller if the underlying user function triggers oneCopyright © 2019 CNES. All rights reserved.