agi.foundation.numericalmethods

(agi.foundation.segmentpropagation-2024r2.jar)

Class TargetedSegmentListOptimizerFunction

java.lang.Object

agi.foundation.numericalmethods.OptimizerMultivariableFunction

agi.foundation.numericalmethods.TargetedSegmentListOptimizerFunction

All Implemented Interfaces:

IDisposable, ICloneWithContext, IThreadAware, AutoCloseable

public class TargetedSegmentListOptimizerFunction
extends OptimizerMultivariableFunction

A OptimizerMultivariableFunction that can be used in a ParameterOptimizer to optimize an arbitrary trajectory or other state elements based on the variables, the cost function, the equality constraints, and the inequality constraints.

This function will be created automatically at propagation time inside any TargetedSegmentListOperator that requires a function. As such, this will not dispose the items it is configured with.

This function applies and resets the variable values supplied by the SequentialQuadraticProgrammingOptimizer.

Constructor Summary

Constructors

Modifier	Constructor and Description
	TargetedSegmentListOptimizerFunction(List<SegmentPropagatorVariableEvaluator> variableEvaluators, SegmentPropagatorCostFunctionEvaluator costFunctionEvaluator, List<SegmentPropagatorConstraintEvaluator> equalityEvaluators, List<SegmentPropagatorInequalityConstraintEvaluator> inequalityEvaluators, List<SegmentPropagator> segmentPropagators, FiniteDifferenceMethod differenceMethod, TargetedSegmentListResults emptyResults, TargetedSegmentListConfiguration configuration) Initializes a new instance.
protected	TargetedSegmentListOptimizerFunction(TargetedSegmentListOptimizerFunction existingInstance, CopyContext context) Initializes a new instance as a copy of an existing instance.

Method Summary

Modifier and Type	Method and Description
void	applyResults(OptimizerMultivariableFunctionResults results) For OptimizerMultivariableFunctions that have state, there may be times when that state should be manually set on a function (sometimes for performance reasons, when the function will be called multiple times and it should start from where it left off).
Object	clone(CopyContext context) Clones this object using the specified context.
OptimizerMultivariableFunctionResults	evaluate(double[] variables, ITrackCalculationProgress progressTracker) Evaluates the function.
boolean	getIsThreadSafe() Gets a value indicating whether the methods on this instance are safe to call from multiple threads simultaneously.

Methods inherited from class agi.foundation.numericalmethods.OptimizerMultivariableFunction

addDerivativeEvaluationEvent, addNormalFunctionEvaluationEvent, addPerturbedFunctionEvaluationEvent, callDerivativeEvaluationEvent, computeGradientsNumerically, dispose, dispose, evaluate, evaluateDerivative, evaluateDerivative, getDifferenceMethod, getPerturbationValues, removeDerivativeEvaluationEvent, removeNormalFunctionEvaluationEvent, removePerturbedFunctionEvaluationEvent, setDifferenceMethod, setPerturbationValues

Methods inherited from class java.lang.Object

clone, equals, finalize, getClass, hashCode, notify, notifyAll, toString, wait, wait, wait

Methods inherited from interface agi.foundation.compatibility.IDisposable

close

Constructor Detail

TargetedSegmentListOptimizerFunction

public TargetedSegmentListOptimizerFunction(@Nonnull
                                            List<SegmentPropagatorVariableEvaluator> variableEvaluators,
                                            SegmentPropagatorCostFunctionEvaluator costFunctionEvaluator,
                                            @Nonnull
                                            List<SegmentPropagatorConstraintEvaluator> equalityEvaluators,
                                            @Nonnull
                                            List<SegmentPropagatorInequalityConstraintEvaluator> inequalityEvaluators,
                                            @Nonnull
                                            List<SegmentPropagator> segmentPropagators,
                                            @Nonnull
                                            FiniteDifferenceMethod differenceMethod,
                                            @Nonnull
                                            TargetedSegmentListResults emptyResults,
                                            @Nonnull
                                            TargetedSegmentListConfiguration configuration)

Initializes a new instance. The items passed in can be the original items that would be propagated normally; you do not need to clone or otherwise copy the parameters for this function.

Parameters:

variableEvaluators - The SegmentPropagatorVariableEvaluator that this function will vary.

costFunctionEvaluator - The SegmentPropagatorCostFunction that will form part of the results of this function.

equalityEvaluators - The SegmentPropagatorConstraintEvaluator that will form part of the results of this function.

inequalityEvaluators - The SegmentPropagatorInequalityConstraintEvaluator that will form part of the results of this function.

configuration - The configuration of the parent TargetedSegmentList that is running the operator that is running this function.

emptyResults - The TargetedSegmentListResults of the segment that is running this function. This may not be null and it must have in it configurations for all of the segmentPropagators.

segmentPropagators - The SegmentPropagators that will be run to evaluate this function.

differenceMethod - How this function should be sampled to determine the derivative of a variable.

TargetedSegmentListOptimizerFunction

protected TargetedSegmentListOptimizerFunction(@Nonnull
                                               TargetedSegmentListOptimizerFunction existingInstance,
                                               @Nonnull
                                               CopyContext context)

Initializes a new instance as a copy of an existing instance.

See ICloneWithContext.clone(CopyContext) for more information about how to implement this constructor in a derived class.

Parameters:

existingInstance - The existing instance to copy.

context - A CopyContext that controls the depth of the copy.

Throws:

ArgumentNullException - Thrown when existingInstance or context is null.

Method Detail

clone

public Object clone(CopyContext context)

Clones this object using the specified 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:

1. Fields that are aggregate parts of the object should always be copied. A referenced object is an aggregate if properties or methods on the object being copied can modify the externally-visible value of the referenced object.
2. If the semantics of the referenced object require that it have a single parent, owner, context, etc., and the object being copied is that parent, owner, or context, then the referenced object should always be copied.

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:

1. For references to other evaluators ONLY, simply assign the reference in the constructor instead of calling CopyContext.updateReference(T). You should still call CopyContext.updateReference(T) on any references to non-evaluators.
2. Call IEvaluator.updateEvaluatorReferences(agi.foundation.infrastructure.CopyContext) as the last line in the constructor and pass it the same CopyContext passed to the constructor.
3. Implement 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;

Specified by:

clone in interface ICloneWithContext

Specified by:

clone in class OptimizerMultivariableFunction

Parameters:

context - The context to use to perform the copy.

Returns:

A new instance which is a copy of this object.

getIsThreadSafe

public boolean getIsThreadSafe()

Gets a value indicating whether the methods on this instance are safe to call from multiple threads simultaneously.

If this property is true, all methods and properties are guaranteed to be thread safe. Conceptually, an object that returns true for this method acts as if there is a lock protecting each method and property such that only one thread at a time can be inside any method or property in the class. In reality, such locks are generally not used and are in fact discouraged. However, the user must not experience any exceptions or inconsistent behavior that would not be experienced if such locks were used.

If this property is false, the behavior when using this class from multiple threads simultaneously is undefined and may include inconsistent results and exceptions. Clients wishing to use multiple threads should call CopyForAnotherThread.copy(T) to get a separate instance of the object for each thread.

Specified by:

getIsThreadSafe in interface IThreadAware

Specified by:

getIsThreadSafe in class OptimizerMultivariableFunction

evaluate

public OptimizerMultivariableFunctionResults evaluate(double[] variables,
                                                      ITrackCalculationProgress progressTracker)

Evaluates the function. The OptimizerMultivariableFunctionResults returned must include the computed equality constraints in the order that they are in the Equalities (get) and the computed inequality constraints in the order that they are in the Inequalities (get). If there are no equality constraints, the function should return a zero-length array of doubles for the equality constraint values. The same should be done for the inequality constraint values if there are no inequality constraint.

If the CostFunction (get / set) is null, the results should include a null cost function value. Otherwise, the results should return a double as the cost function value.

Specified by:

evaluate in class OptimizerMultivariableFunction

Parameters:

variables - The value of the variables that are used to evaluate the function.

progressTracker - An optional progress tracker.

Returns:

The cost function, equality constraint values, and the inequality constraint values.

applyResults

public void applyResults(OptimizerMultivariableFunctionResults results)

For OptimizerMultivariableFunctions that have state, there may be times when that state should be manually set on a function (sometimes for performance reasons, when the function will be called multiple times and it should start from where it left off). This method will manually set that state, if needed.

Overrides:

applyResults in class OptimizerMultivariableFunction

Parameters:

results - The results to apply.