public class ExtremeValueOfSegmentCostFunction extends SegmentPropagatorCostFunction
costFunction
will take the extreme value of a
Scalar
(get
/ set
) computed while propagating a SegmentPropagator
.
No interpolation will be done on the values of the Scalar
(get
/ set
).Modifier | Constructor and Description |
---|---|
|
ExtremeValueOfSegmentCostFunction()
Initializes a new instance.
|
|
ExtremeValueOfSegmentCostFunction(CostFunctionGoal goal,
Scalar scalar,
SegmentDefinition segment,
double tolerance,
TimeBasedStateParameter parameter,
ExtremumType extremumType)
Initializes a new instance.
|
|
ExtremeValueOfSegmentCostFunction(CostFunctionGoal goal,
Scalar scalar,
SegmentDefinition segment,
double tolerance,
TimeBasedStateParameter parameter,
ExtremumType extremumType,
CostFunctionScaling scaling,
double weight)
Initializes a new instance.
|
|
ExtremeValueOfSegmentCostFunction(CostFunctionGoal goal,
SegmentDefinition segment,
double tolerance,
ExtremumType extremumType)
Initializes a new instance.
|
protected |
ExtremeValueOfSegmentCostFunction(ExtremeValueOfSegmentCostFunction existingInstance,
CopyContext context)
Initializes a new instance as a copy of an existing instance.
|
Modifier and Type | Method and Description |
---|---|
protected boolean |
checkForSameDefinition(ExtremeValueOfSegmentCostFunction other)
Checks to determine if another instance has the same definition as this instance and
returns
true if it does. |
protected boolean |
checkForSameDefinition(SegmentPropagatorCostFunction other)
Checks to determine if another instance has the same definition as this instance and
returns
true if it does. |
Object |
clone(CopyContext context)
Clones this object using the specified context.
|
protected int |
computeCurrentDefinitionHashCode()
Computes a hash code based on the current properties of this object.
|
void |
enumerateDependencies(DependencyEnumerator enumerator)
Enumerates the dependencies of this object by calling
DependencyEnumerator#enumerate(T) for each object that this object directly depends upon. |
SegmentPropagatorCostFunctionEvaluator |
getEvaluator(EvaluatorGroup group)
Creates and returns the
SegmentPropagatorCostFunctionEvaluator . |
ExtremumType |
getExtremumType()
|
TimeBasedStateParameter |
getParameter()
|
Scalar |
getScalar()
Gets the
Scalar to compute a value to minimize or maximize. |
SegmentDefinition |
getSegment()
Gets the
SegmentDefinition whose entire computed ephemeris points
(in the StateForNextSegment (get )) will be used to compute a value. |
void |
setExtremumType(ExtremumType value)
|
void |
setParameter(TimeBasedStateParameter value)
|
void |
setScalar(Scalar value)
Sets the
Scalar to compute a value to minimize or maximize. |
void |
setSegment(SegmentDefinition value)
Sets the
SegmentDefinition whose entire computed ephemeris points
(in the StateForNextSegment (get )) will be used to compute a value. |
protected void |
validateProperties()
Validates that required properties are configured correctly in order to get an
evaluator for this instance.
|
checkForSameDefinition, freezeAggregatedObjects, getGoal, getName, getSettings, setGoal, setName, setSettings
areSameDefinition, areSameDefinition, areSameDefinition, areSameDefinition, areSameDefinition, collectionItemsAreSameDefinition, collectionItemsAreSameDefinition, collectionItemsAreSameDefinition, dictionaryItemsAreSameDefinition, freeze, getCollectionHashCode, getCollectionHashCode, getCollectionHashCode, getDefinitionHashCode, getDefinitionHashCode, getDefinitionHashCode, getDefinitionHashCode, getDefinitionHashCode, getDefinitionHashCode, getDictionaryHashCode, getIsFrozen, isSameDefinition, throwIfFrozen
public ExtremeValueOfSegmentCostFunction()
Initializes a new instance.
Before ExtremeValueOfSegmentCostFunction.getEvaluator(agi.foundation.EvaluatorGroup)
can be called,
Scalar
(get
/ set
), Segment
(get
/ set
), and Goal
(get
/ set
) must be configured, and
Settings
(get
/ set
) must be configured with a valid Tolerance
(get
/ set
).
Scaling
(get
/ set
) defaults to NoScalingOnCostFunction
.
public ExtremeValueOfSegmentCostFunction(@Nonnull CostFunctionGoal goal, SegmentDefinition segment, double tolerance, @Nonnull ExtremumType extremumType)
goal
- Whether the cost function should be minimized or maximized.tolerance
- How small the cost function's variation between subsequent iterations must become
to consider this cost function to be converged.segment
- The SegmentDefinition
whose states
will
be used to compute the Scalar
(get
/ set
).extremumType
- The type of the extremum (minimum, maximum).public ExtremeValueOfSegmentCostFunction(@Nonnull CostFunctionGoal goal, Scalar scalar, SegmentDefinition segment, double tolerance, TimeBasedStateParameter parameter, @Nonnull ExtremumType extremumType, @Nonnull CostFunctionScaling scaling, double weight)
scalar
- The Scalar
to minimize or maximize.goal
- Whether the cost function should be minimized or maximized.tolerance
- How small the cost function's variation between subsequent iterations must become
to consider this cost function to be converged.segment
- The SegmentDefinition
whose states
will
be used to compute the Scalar
(get
/ set
).parameter
- The parameter to use to when computing the scalar.extremumType
- The type of the extremum (minimum, maximum).scaling
- The type of scaling to be used on this constraint.weight
- The weight of this cost function compared to the constraints.public ExtremeValueOfSegmentCostFunction(@Nonnull CostFunctionGoal goal, Scalar scalar, SegmentDefinition segment, double tolerance, TimeBasedStateParameter parameter, @Nonnull ExtremumType extremumType)
scalar
- The Scalar
to minimize or maximize.goal
- Whether the cost function should be minimized or maximized.tolerance
- How small the cost function's variation between subsequent iterations must become
to consider this cost function to be converged.segment
- The SegmentDefinition
whose states
will
be used to compute the Scalar
(get
/ set
).parameter
- The parameter to use to when computing the scalar.extremumType
- The type of the extremum (minimum, maximum).protected ExtremeValueOfSegmentCostFunction(@Nonnull ExtremeValueOfSegmentCostFunction existingInstance, @Nonnull CopyContext context)
See ICloneWithContext.clone(CopyContext)
for more information about how to implement this constructor
in a derived class.
existingInstance
- The existing instance to copy.context
- A CopyContext
that controls the depth of the copy.ArgumentNullException
- Thrown when existingInstance
or context
is null
.public Object clone(CopyContext context)
This method should be implemented to call a copy constructor on the class of the
object being cloned. The copy constructor should take the CopyContext
as a parameter
in addition to the existing instance to copy. The copy constructor should first call
CopyContext.addObjectMapping(T, T)
to identify the newly constructed instance
as a copy of the existing instance. It should then copy all fields, using
CopyContext.updateReference(T)
to copy any reference fields.
A typical implementation of ICloneWithContext
:
public static class MyClass implements ICloneWithContext {
public MyClass(MyClass existingInstance, CopyContext context) {
context.addObjectMapping(existingInstance, this);
someReference = context.updateReference(existingInstance.someReference);
}
@Override
public final Object clone(CopyContext context) {
return new MyClass(this, context);
}
private Object someReference;
}
In general, all fields that are reference types should be copied with a call to
CopyContext.updateReference(T)
. There are a couple of exceptions:
If one of these exceptions applies, the CopyContext
should be given an opportunity
to update the reference before the reference is copied explicitly. Use
CopyContext.updateReference(T)
to update the reference. If CopyContext.updateReference(T)
returns
the original object, indicating that the context does not have a replacement registered,
then copy the object manually by invoking a Clone method, a copy constructor, or by manually
constructing a new instance and copying the values.
alwaysCopy = context.updateReference(existingInstance.alwaysCopy);
if (existingInstance.alwaysCopy != null && alwaysCopy == existingInstance.alwaysCopy) {
alwaysCopy = (AlwaysCopy) existingInstance.alwaysCopy.clone(context);
}
If you are implementing an evaluator (a class that implements IEvaluator
), the
IEvaluator.updateEvaluatorReferences(agi.foundation.infrastructure.CopyContext)
method shares some responsibilities with the
copy context constructor. Code duplication can be avoided by doing the following:
CopyContext.updateReference(T)
. You should still call CopyContext.updateReference(T)
on any references to
non-evaluators.
IEvaluator.updateEvaluatorReferences(agi.foundation.infrastructure.CopyContext)
as the last line in the constructor and pass it the
same CopyContext
passed to the constructor.
IEvaluator.updateEvaluatorReferences(agi.foundation.infrastructure.CopyContext)
as normal. See the reference documentation for
IEvaluator.updateEvaluatorReferences(agi.foundation.infrastructure.CopyContext)
for more information on implementing that method.
public MyClass(MyClass existingInstance, CopyContext context) {
super(existingInstance, context);
someReference = context.updateReference(existingInstance.someReference);
evaluatorReference = existingInstance.evaluatorReference;
updateEvaluatorReferences(context);
}
@Override
public void updateEvaluatorReferences(CopyContext context) {
evaluatorReference = context.updateReference(evaluatorReference);
}
@Override
public Object clone(CopyContext context) {
return new MyClass(this, context);
}
private Object someReference;
private IEvaluator evaluatorReference;
clone
in interface ICloneWithContext
clone
in class DefinitionalObject
context
- The context to use to perform the copy.protected final boolean checkForSameDefinition(SegmentPropagatorCostFunction other)
true
if it does. Derived classes MUST override this method and check
all new fields introduced by the derived class for definitional equivalence. It is NOT necessary
to check base class fields because the base class will already have done that. When overriding this method,
you should NOT call the base implementation because it will return false
for all derived-class instances.
Derived classes should check the type of other
to preserve the symmetric nature of IEquatableDefinition.isSameDefinition(java.lang.Object)
.checkForSameDefinition
in class SegmentPropagatorCostFunction
other
- The other instance to compare to this one.true
if the two objects are defined equivalently; otherwise false
.protected boolean checkForSameDefinition(ExtremeValueOfSegmentCostFunction other)
true
if it does. Derived classes MUST override this method and check
all new fields introduced by the derived class for definitional equivalence. It is NOT necessary
to check base class fields because the base class will already have done that. When overriding this method,
you should NOT call the base implementation because it will return false
for all derived-class instances.
Derived classes should check the type of other
to preserve the symmetric nature of IEquatableDefinition.isSameDefinition(java.lang.Object)
.other
- The other instance to compare to this one.true
if the two objects are defined equivalently; otherwise false
.protected int computeCurrentDefinitionHashCode()
ExtremeValueOfSegmentCostFunction.checkForSameDefinition(agi.foundation.numericalmethods.SegmentPropagatorCostFunction)
method.computeCurrentDefinitionHashCode
in class SegmentPropagatorCostFunction
public void enumerateDependencies(DependencyEnumerator enumerator)
DependencyEnumerator#enumerate(T)
for each object that this object directly depends upon.
Derived classes which contain additional dependencies MUST override this method, call the base
implementation, and enumerate dependencies introduced by the derived class.enumerateDependencies
in interface IEnumerateDependencies
enumerateDependencies
in class SegmentPropagatorCostFunction
enumerator
- The enumerator that is informed of the dependencies of this object.public final Scalar getScalar()
Scalar
to compute a value to minimize or maximize.
This Scalar
must be set to evaluate at any time during the
ephemeris of the Segment
(get
/ set
). The common way to do that is to create a
Scalar
that is built from a ParameterizedOnStateScalar
,
ParameterizedOnStatePoint
or ParameterizedOnStateVector
with
this parameter as their parameter.public final void setScalar(Scalar value)
Scalar
to compute a value to minimize or maximize.
This Scalar
must be set to evaluate at any time during the
ephemeris of the Segment
(get
/ set
). The common way to do that is to create a
Scalar
that is built from a ParameterizedOnStateScalar
,
ParameterizedOnStatePoint
or ParameterizedOnStateVector
with
this parameter as their parameter.public final SegmentDefinition getSegment()
SegmentDefinition
whose entire computed ephemeris points
(in the StateForNextSegment
(get
)) will be used to compute a value.public final void setSegment(SegmentDefinition value)
SegmentDefinition
whose entire computed ephemeris points
(in the StateForNextSegment
(get
)) will be used to compute a value.@Nonnull public final ExtremumType getExtremumType()
public final void setExtremumType(@Nonnull ExtremumType value)
public final TimeBasedStateParameter getParameter()
Scalar
(get
/ set
). The Scalar
(get
/ set
)
must be set to evaluate at any time during the ephemeris of the Segment
(get
/ set
). The
common way to do that is to create a Scalar
that is built
from a ParameterizedOnStateScalar
, ParameterizedOnStatePoint
or
ParameterizedOnStateVector
with this parameter as their parameter. Note that there is
coupling between this and the Scalar
(get
/ set
), and as such be sure to update this property
if the parameter the Scalar
(get
/ set
) depends on changes.public final void setParameter(TimeBasedStateParameter value)
Scalar
(get
/ set
). The Scalar
(get
/ set
)
must be set to evaluate at any time during the ephemeris of the Segment
(get
/ set
). The
common way to do that is to create a Scalar
that is built
from a ParameterizedOnStateScalar
, ParameterizedOnStatePoint
or
ParameterizedOnStateVector
with this parameter as their parameter. Note that there is
coupling between this and the Scalar
(get
/ set
), and as such be sure to update this property
if the parameter the Scalar
(get
/ set
) depends on changes.public SegmentPropagatorCostFunctionEvaluator getEvaluator(EvaluatorGroup group)
SegmentPropagatorCostFunctionEvaluator
.
Derived classes should call ExtremeValueOfSegmentCostFunction.validateProperties()
to check properties
owned by this base class, as well as validate their own properties.
getEvaluator
in class SegmentPropagatorCostFunction
group
- The EvaluatorGroup
to use to create any necessary
evaluators
for this constraint.cost function evaluator
.protected void validateProperties()
ExtremeValueOfSegmentCostFunction.getEvaluator(agi.foundation.EvaluatorGroup)
, as well as validate their own properties.validateProperties
in class SegmentPropagatorCostFunction
PropertyInvalidException
- Thrown when Segment
(get
/ set
), Scalar
(get
/ set
), or Parameter
(get
/ set
) is null
.PropertyInvalidException
- Thrown when Settings
(get
/ set
) is null
, or
Scaling
(get
/ set
) is null
, or
Tolerance
(get
/ set
) is not greater than zero.