Table of Contents

Class SendSignalAction

Namespace
NMF.Interop.Uml
Assembly
NMF.UMLInterop.dll

A SendSignalAction is an InvocationAction that creates a Signal instance and transmits it to the target object. Values from the argument InputPins are used to provide values for the attributes of the Signal. The requestor continues execution immediately after the Signal instance is sent out and cannot receive reply values. <p>From package UML::Actions.</p>

[XmlNamespace("http://www.eclipse.org/uml2/5.0.0/UML")]
[XmlNamespacePrefix("uml")]
[ModelRepresentationClass("http://www.eclipse.org/uml2/5.0.0/UML#//SendSignalAction")]
public class SendSignalAction : InvocationAction, ISendSignalAction, IInvocationAction, IAction, IExecutableNode, IActivityNode, IActivityContent, IRedefinableElement, INamedElement, IElement, IEModelElement, IModelElement, INotifyPropertyChanged, INotifyPropertyChanging
Inheritance
SendSignalAction
Implements
Inherited Members

Properties

Children

Gets the child model elements of this model element

public override IEnumerableExpression<IModelElement> Children { get; }

Property Value

IEnumerableExpression<IModelElement>

ClassInstance

Gets the Class model for this type

public static IClass ClassInstance { get; }

Property Value

IClass

ReferencedElements

Gets the referenced model elements of this model element

public override IEnumerableExpression<IModelElement> ReferencedElements { get; }

Property Value

IEnumerableExpression<IModelElement>

Signal

The Signal whose instance is transmitted to the target. <p>From package UML::Actions.</p>

[XmlElementName("signal")]
[XmlAttribute(true)]
public ISignal Signal { get; set; }

Property Value

ISignal

Target

The InputPin that provides the target object to which the Signal instance is sent. <p>From package UML::Actions.</p>

[Browsable(false)]
[XmlElementName("target")]
[XmlAttribute(false)]
[Containment]
public IInputPin Target { get; set; }

Property Value

IInputPin

Methods

GetClass()

Gets the Class for this model element

public override IClass GetClass()

Returns

IClass

GetExpressionForReference(string)

Gets the property expression for the given reference

protected override INotifyExpression<IModelElement> GetExpressionForReference(string reference)

Parameters

reference string

The requested reference in upper case

Returns

INotifyExpression<IModelElement>

An incremental property expression

GetModelElementForReference(string, int)

Resolves the given URI to a child model element

protected override IModelElement GetModelElementForReference(string reference, int index)

Parameters

reference string

The requested reference name

index int

The index of this reference

Returns

IModelElement

The model element or null if it could not be found

GetRelativePathForNonIdentifiedChild(IModelElement)

Gets the relative URI fragment for the given child model element

protected override string GetRelativePathForNonIdentifiedChild(IModelElement element)

Parameters

element IModelElement

The element that should be looked for

Returns

string

A fragment of the relative URI

Number_order(object, object)

The number and order of argument InputPins must be the same as the number and order of attributes of the signal. argument->size()=signal.allAttributes()->size()

public bool Number_order(object diagnostics, object context)

Parameters

diagnostics object

The chain of diagnostics to which problems are to be appended.

context object

The cache of context-specific information.

Returns

bool

SetFeature(string, object)

Sets a value to the given feature

protected override void SetFeature(string feature, object value)

Parameters

feature string

The requested feature

value object

The value that should be set to that feature

Type_ordering_multiplicity(object, object)

The type, ordering, and multiplicity of an argument InputPin must be the same as the corresponding attribute of the signal. let attribute: OrderedSet(Property) = signal.allAttributes() in Sequence{1..argument->size()}->forAll(i | argument->at(i).type.conformsTo(attribute->at(i).type) and argument->at(i).isOrdered = attribute->at(i).isOrdered and argument->at(i).compatibleWith(attribute->at(i)))

public bool Type_ordering_multiplicity(object diagnostics, object context)

Parameters

diagnostics object

The chain of diagnostics to which problems are to be appended.

context object

The cache of context-specific information.

Returns

bool

Type_target_pin(object, object)

If onPort is not empty, the Port given by onPort must be an owned or inherited feature of the type of the target InputPin. not onPort->isEmpty() implies target.type.oclAsType(Classifier).allFeatures()->includes(onPort)

public bool Type_target_pin(object diagnostics, object context)

Parameters

diagnostics object

The chain of diagnostics to which problems are to be appended.

context object

The cache of context-specific information.

Returns

bool
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