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Class UML 2.5::Operation

Description:

An Operation is a BehavioralFeature of a Classifier that specifies the name, type, parameters, and constraints for invoking an associated Behavior. An Operation may invoke both the execution of method behaviors as well as other behavioral responses. Operation specializes TemplateableElement in order to support specification of template operations and bound operations. Operation specializes ParameterableElement to specify that an operation can be exposed as a formal template parameter, and provided as an actual parameter in a binding of a template.

Direct Superclasses: TemplateableElement, ParameterableElement, BehavioralFeature

Direct Subclasses:

Class Precedence List: Operation, TemplateableElement, ParameterableElement, BehavioralFeature, Feature, RedefinableElement, Namespace, NamedElement, Element

Properties:

bodyCondition : Constraint (0 1); -- source Operation
class : Class (0 1); -- source Operation
datatype : DataType (0 1); -- source Operation
interface : Interface (0 1); -- source Operation
isOrdered : Boolean (1 1); -- source Operation
isQuery : Boolean (1 1); -- source Operation
isUnique : Boolean (1 1); -- source Operation
lower : Integer (0 1); -- source Operation
postcondition : Constraint (0 *); -- source Operation
precondition : Constraint (0 *); -- source Operation
redefinedOperation : Operation (0 *); -- source Operation
templateParameter : OperationTemplateParameter (0 1); -- source Operation
type : Type (0 1); -- source Operation
upper : UnlimitedNatural (0 1); -- source Operation
ownedTemplateSignature : TemplateSignature (0 1); -- source TemplateableElement
templateBinding : TemplateBinding (0 *); -- source TemplateableElement
owningTemplateParameter : TemplateParameter (0 1); -- source ParameterableElement
concurrency : CallConcurrencyKind (1 1); -- source BehavioralFeature
isAbstract : Boolean (1 1); -- source BehavioralFeature
method : Behavior (0 *); -- source BehavioralFeature
ownedParameter : Parameter (0 *); -- source BehavioralFeature
ownedParameterSet : ParameterSet (0 *); -- source BehavioralFeature
raisedException : Type (0 *); -- source BehavioralFeature
featuringClassifier : Classifier (0 1); -- source Feature
isStatic : Boolean (1 1); -- source Feature
isLeaf : Boolean (1 1); -- source RedefinableElement
redefinedElement : RedefinableElement (0 *); -- source RedefinableElement
redefinitionContext : Classifier (0 *); -- source RedefinableElement
elementImport : ElementImport (0 *); -- source Namespace
importedMember : PackageableElement (0 *); -- source Namespace
member : NamedElement (0 *); -- source Namespace
ownedMember : NamedElement (0 *); -- source Namespace
ownedRule : Constraint (0 *); -- source Namespace
packageImport : PackageImport (0 *); -- source Namespace
clientDependency : Dependency (0 *); -- source NamedElement
name : String (0 1); -- source NamedElement
nameExpression : StringExpression (0 1); -- source NamedElement
namespace : Namespace (0 1); -- source NamedElement
qualifiedName : String (0 1); -- source NamedElement
visibility : VisibilityKind (0 1); -- source NamedElement
ownedComment : Comment (0 *); -- source Element
ownedElement : Element (0 *); -- source Element
owner : Element (0 1); -- source Element

Constraints:

Signature: CMOF_14_3_17a() : Boolean;
Description: 14.3 [17] An Operation can have up to one Parameter whose direction is 'return'; furthermore, an Operation cannot have any ParameterSet per 12.4 [8].
Expression: ownedParameter->select(direction = ParameterDirectionKind::return)->size() < 2 and ownedParameterSet->isEmpty()

Signature: CMOF_14_3_2() : Boolean;
Description: 14.3 [2] The type of Operation::raisedException is limited to be Class rather than Type. see also: https://sites.google.com/site/metamodelingantipatterns/catalog/mof/operation-has-non-class-exception
Expression: raisedException->forAll(e | e.oclIsTypeOf(Class))

Operations:

Signature: upper.1() : UnlimitedNatural;
Description: If this operation has a return parameter, upper equals the value of upper for that parameter. Otherwise upper has no value.
Expression: result = (if returnResult()->notEmpty() then returnResult()->any(true).upper else null endif)

Signature: type.1() : Type;
Description: If this operation has a return parameter, type equals the value of type for that parameter. Otherwise type has no value.
Expression: result = (if returnResult()->notEmpty() then returnResult()->any(true).type else null endif)

Signature: returnResult() : Parameter;
Description: The query returnResult() returns the set containing the return parameter of the Operation if one exists, otherwise, it returns an empty set
Expression: result = (ownedParameter->select (direction = ParameterDirectionKind::return))

Signature: lower.1() : Integer;
Description: If this operation has a return parameter, lower equals the value of lower for that parameter. Otherwise lower has no value.
Expression: result = (if returnResult()->notEmpty() then returnResult()->any(true).lower else null endif)

Signature: isUnique.1() : Boolean;
Description: If this operation has a return parameter, isUnique equals the value of isUnique for that parameter. Otherwise isUnique is true.
Expression: result = (if returnResult()->notEmpty() then returnResult()->exists(isUnique) else true endif)

Signature: isOrdered.1() : Boolean;
Description: If this operation has a return parameter, isOrdered equals the value of isOrdered for that parameter. Otherwise isOrdered is false.
Expression: result = (if returnResult()->notEmpty() then returnResult()-> exists(isOrdered) else false endif)

Signature: isConsistentWith(redefiningElement : RedefinableElement; ) : Boolean;
Description: The query isConsistentWith() specifies, for any two Operations in a context in which redefinition is possible, whether redefinition would be consistent. A redefining operation is consistent with a redefined operation if it has the same number of owned parameters, and for each parameter the following holds: - Direction, ordering and uniqueness are the same. - The corresponding types are covariant, contravariant or invariant. - The multiplicities are compatible, depending on the parameter direction.
Expression: result = (redefiningElement.oclIsKindOf(Operation) and let op : Operation = redefiningElement.oclAsType(Operation) in self.ownedParameter->size() = op.ownedParameter->size() and Sequence{1..self.ownedParameter->size()}-> forAll(i | let redefiningParam : Parameter = op.ownedParameter->at(i), redefinedParam : Parameter = self.ownedParameter->at(i) in (redefiningParam.isUnique = redefinedParam.isUnique) and (redefiningParam.isOrdered = redefinedParam. isOrdered) and (redefiningParam.direction = redefinedParam.direction) and (redefiningParam.type.conformsTo(redefinedParam.type) or redefinedParam.type.conformsTo(redefiningParam.type)) and (redefiningParam.direction = ParameterDirectionKind::inout implies (redefinedParam.compatibleWith(redefiningParam) and redefiningParam.compatibleWith(redefinedParam))) and (redefiningParam.direction = ParameterDirectionKind::_'in' implies redefinedParam.compatibleWith(redefiningParam)) and ((redefiningParam.direction = ParameterDirectionKind::out or redefiningParam.direction = ParameterDirectionKind::return) implies redefiningParam.compatibleWith(redefinedParam)) ))



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