standard library package SysML { doc /* * This package contains a reflective KerML model of the KerML abstract syntax. */ private import ScalarValues::*; public import Systems::*; package Systems { public import KerML::Kernel::*; metadata def AcceptActionUsage specializes ActionUsage { derived ref item receiverArgument : Expression[0..1]; derived ref item payloadParameter : ReferenceUsage[1..1] subsets nestedReference, parameter; derived ref item payloadArgument : Expression[0..1]; } metadata def ActionDefinition specializes Behavior, OccurrenceDefinition { derived ref item 'action' : ActionUsage[0..*] ordered subsets step, usage; } metadata def ActionUsage specializes Step, OccurrenceUsage { derived ref item actionDefinition : Behavior[0..*] ordered redefines behavior, occurrenceDefinition; } metadata def ActorMembership specializes ParameterMembership { derived item ownedActorParameter : PartUsage[1..1] redefines ownedMemberParameter; } metadata def AllocationDefinition specializes ConnectionDefinition { derived ref item 'allocation' : AllocationUsage[0..*] ordered subsets usage; } metadata def AllocationUsage specializes ConnectionUsage { derived ref item allocationDefinition : AllocationDefinition[0..*] ordered redefines connectionDefinition; } metadata def AnalysisCaseDefinition specializes CaseDefinition { derived ref item resultExpression : Expression[0..1] subsets expression, ownedFeature; } metadata def AnalysisCaseUsage specializes CaseUsage { derived ref item analysisCaseDefinition : AnalysisCaseDefinition[0..1] redefines caseDefinition; derived ref item resultExpression : Expression[0..1] subsets ownedFeature; } metadata def AssertConstraintUsage specializes ConstraintUsage, Invariant { derived ref item assertedConstraint : ConstraintUsage[1..1]; } metadata def AssignmentActionUsage specializes ActionUsage { derived ref item targetArgument : Expression[0..1]; derived ref item valueExpression : Expression[0..1]; derived ref item referent : Feature[1..1] subsets member; } metadata def AttributeDefinition specializes DataType, Definition; metadata def AttributeUsage specializes Usage { derived attribute isReference : Boolean[1..1] redefines isReference; derived ref item attributeDefinition : DataType[0..*] ordered redefines definition; } metadata def BindingConnectorAsUsage specializes BindingConnector, ConnectorAsUsage; metadata def CalculationDefinition specializes Function, ActionDefinition { derived ref item calculation : CalculationUsage[0..*] ordered subsets 'action', expression; } metadata def CalculationUsage specializes Expression, ActionUsage { derived ref item calculationDefinition : Function[0..1] ordered redefines function, actionDefinition; } metadata def CaseDefinition specializes CalculationDefinition { derived ref item objectiveRequirement : RequirementUsage[0..1] ordered subsets usage; derived ref item subjectParameter : Usage[1..1] subsets parameter, usage; derived ref item actorParameter : PartUsage[0..*] ordered subsets parameter, usage; } metadata def CaseUsage specializes CalculationUsage { derived ref item objectiveRequirement : RequirementUsage[0..1] ordered subsets usage; derived ref item caseDefinition : CaseDefinition[0..1] redefines calculationDefinition; derived ref item subjectParameter : Usage[1..1] subsets parameter, usage; derived ref item actorParameter : PartUsage[0..*] ordered subsets parameter, usage; } metadata def ConcernDefinition specializes RequirementDefinition; metadata def ConcernUsage specializes RequirementUsage { derived ref item concernDefinition : ConcernDefinition[0..1] redefines requirementDefinition; } metadata def ConjugatedPortDefinition specializes PortDefinition { derived ref item originalPortDefinition : PortDefinition[1..1] redefines owningNamespace; derived ref item ownedPortConjugator : PortConjugation[1..1] redefines ownedConjugator; } metadata def ConjugatedPortTyping specializes FeatureTyping { ref item conjugatedPortDefinition : ConjugatedPortDefinition[1..1] redefines type; derived ref item portDefinition : PortDefinition[1..1]; } metadata def ConnectionDefinition specializes AssociationStructure, PartDefinition { derived ref item connectionEnd : Usage[0..*] ordered redefines associationEnd; } metadata def ConnectionUsage specializes ConnectorAsUsage, PartUsage { derived ref item connectionDefinition : AssociationStructure[0..*] ordered subsets itemDefinition redefines association; } abstract metadata def ConnectorAsUsage specializes Usage, Connector; metadata def ConstraintDefinition specializes OccurrenceDefinition, Predicate; metadata def ConstraintUsage specializes BooleanExpression, OccurrenceUsage { derived ref item constraintDefinition : Predicate[0..1] redefines predicate; } abstract metadata def ControlNode specializes ActionUsage; metadata def DecisionNode specializes ControlNode; metadata def Definition specializes Classifier { attribute isVariation : Boolean[1..1]; derived ref item 'variant' : Usage[0..*] subsets ownedMember; derived item variantMembership : VariantMembership[0..*] subsets ownedMembership; derived ref item usage : Usage[0..*] ordered subsets feature; derived ref item directedUsage : Usage[0..*] ordered subsets usage, directedFeature; derived ref item ownedUsage : Usage[0..*] ordered subsets ownedFeature, usage; derived ref item ownedReference : ReferenceUsage[0..*] ordered subsets ownedUsage; derived ref item ownedAttribute : AttributeUsage[0..*] ordered subsets ownedUsage; derived ref item ownedEnumeration : EnumerationUsage[0..*] ordered subsets ownedAttribute; derived ref item ownedOccurrence : OccurrenceUsage[0..*] ordered subsets ownedUsage; derived ref item ownedItem : ItemUsage[0..*] ordered subsets ownedOccurrence; derived ref item ownedPart : PartUsage[0..*] ordered subsets ownedItem; derived ref item ownedPort : PortUsage[0..*] ordered subsets ownedUsage; derived ref item ownedConnection : ConnectorAsUsage[0..*] ordered subsets ownedPart; derived ref item ownedFlow : FlowConnectionUsage[0..*] subsets ownedConnection; derived ref item ownedInterface : InterfaceUsage[0..*] ordered subsets ownedConnection; derived ref item ownedAllocation : AllocationUsage[0..*] ordered subsets ownedConnection; derived ref item ownedAction : ActionUsage[0..*] ordered subsets ownedOccurrence; derived ref item ownedState : StateUsage[0..*] ordered subsets ownedAction; derived ref item ownedTransition : TransitionUsage[0..*] subsets ownedUsage; derived ref item ownedCalculation : CalculationUsage[0..*] ordered subsets ownedAction; derived ref item ownedConstraint : ConstraintUsage[0..*] ordered subsets ownedOccurrence; derived ref item ownedRequirement : RequirementUsage[0..*] ordered subsets ownedConstraint; derived ref item ownedConcern : ConcernUsage[0..*] subsets ownedRequirement; derived ref item ownedCase : CaseUsage[0..*] ordered subsets ownedCalculation; derived ref item ownedAnalysisCase : AnalysisCaseUsage[0..*] ordered subsets ownedCase; derived ref item ownedVerificationCase : VerificationCaseUsage[0..*] ordered subsets ownedCase; derived ref item ownedUseCase : UseCaseUsage[0..*] ordered subsets ownedCase; derived ref item ownedView : ViewUsage[0..*] ordered subsets ownedPart; derived ref item ownedViewpoint : ViewpointUsage[0..*] ordered subsets ownedRequirement; derived ref item ownedRendering : RenderingUsage[0..*] ordered subsets ownedPart; derived ref item ownedMetadata : MetadataUsage[0..*] ordered subsets ownedItem; } metadata def EnumerationDefinition specializes AttributeDefinition { attribute isVariation : Boolean[1..1] redefines isVariation; derived ref item enumeratedValue : EnumerationUsage[0..*] ordered redefines 'variant'; } metadata def EnumerationUsage specializes AttributeUsage { derived ref item enumerationDefinition : EnumerationDefinition[1..1] redefines attributeDefinition; } metadata def EventOccurrenceUsage specializes OccurrenceUsage { derived attribute isReference : Boolean[1..1] redefines isReference; derived ref item eventOccurrence : OccurrenceUsage[1..1]; } metadata def ExhibitStateUsage specializes StateUsage, PerformActionUsage { derived ref item exhibitedState : StateUsage[1..1] redefines performedAction; } abstract metadata def Expose specializes Import { attribute visibility : VisibilityKind[1..1] redefines visibility; attribute isImportAll : Boolean[1..1] redefines isImportAll; } metadata def FlowConnectionDefinition specializes Interaction, ConnectionDefinition, ActionDefinition; metadata def FlowConnectionUsage specializes ConnectionUsage, ItemFlow, ActionUsage { derived ref item flowConnectionDefinition : Interaction[0..*] ordered redefines actionDefinition, connectionDefinition, interaction; } metadata def ForLoopActionUsage specializes LoopActionUsage { derived ref item seqArgument : Expression[1..1]; derived ref item loopVariable : ReferenceUsage[1..1]; } metadata def ForkNode specializes ControlNode; metadata def FramedConcernMembership specializes RequirementConstraintMembership { attribute kind : RequirementConstraintKind[1..1] redefines kind; derived item ownedConcern : ConcernUsage[1..1] redefines ownedConstraint; derived ref item referencedConcern : ConcernUsage[1..1] redefines referencedConstraint; } metadata def IfActionUsage specializes ActionUsage { derived ref item elseAction : ActionUsage[0..1]; derived ref item thenAction : ActionUsage[1..1]; derived ref item ifArgument : Expression[1..1]; } metadata def IncludeUseCaseUsage specializes UseCaseUsage, PerformActionUsage { derived ref item useCaseIncluded : UseCaseUsage[1..1] redefines performedAction; } metadata def InterfaceDefinition specializes ConnectionDefinition { derived ref item interfaceEnd : PortUsage[0..*] ordered redefines connectionEnd; } metadata def InterfaceUsage specializes ConnectionUsage { derived ref item interfaceDefinition : InterfaceDefinition[0..*] redefines connectionDefinition; } metadata def ItemDefinition specializes Structure, OccurrenceDefinition; metadata def ItemUsage specializes OccurrenceUsage { derived ref item itemDefinition : Structure[0..*] ordered subsets occurrenceDefinition; } metadata def JoinNode specializes ControlNode; metadata def LifeClass specializes Class { attribute isSufficient : Boolean[1..1] redefines isSufficient; } abstract metadata def LoopActionUsage specializes ActionUsage { derived ref item bodyAction : ActionUsage[1..1]; } metadata def MembershipExpose specializes MembershipImport, Expose; metadata def MergeNode specializes ControlNode; metadata def MetadataDefinition specializes ItemDefinition, Metaclass; metadata def MetadataUsage specializes ItemUsage, MetadataFeature { derived ref item metadataDefinition : Metaclass[0..1] redefines itemDefinition, metaclass; } metadata def NamespaceExpose specializes Expose, NamespaceImport; metadata def ObjectiveMembership specializes FeatureMembership { derived item ownedObjectiveRequirement : RequirementUsage[1..1] redefines ownedMemberFeature; } metadata def OccurrenceDefinition specializes Definition, Class { attribute isIndividual : Boolean[1..1]; derived ref item lifeClass : LifeClass[0..1] subsets ownedMember; } metadata def OccurrenceUsage specializes Usage { attribute isIndividual : Boolean[1..1]; attribute portionKind : PortionKind[0..1]; derived ref item occurrenceDefinition : Class[0..*] ordered redefines definition; derived ref item individualDefinition : OccurrenceDefinition[0..1] subsets occurrenceDefinition; } metadata def PartDefinition specializes ItemDefinition; metadata def PartUsage specializes ItemUsage { derived ref item partDefinition : PartDefinition[0..*] ordered subsets itemDefinition; } metadata def PerformActionUsage specializes ActionUsage, EventOccurrenceUsage { derived ref item performedAction : ActionUsage[1..1] redefines eventOccurrence; } metadata def PortConjugation specializes Conjugation { ref item originalPortDefinition : PortDefinition[1..1] redefines originalType; derived ref item conjugatedPortDefinition : ConjugatedPortDefinition[1..1] redefines owningType; } metadata def PortDefinition specializes OccurrenceDefinition, Structure { derived ref item conjugatedPortDefinition : ConjugatedPortDefinition[0..1] subsets ownedMember; } metadata def PortUsage specializes OccurrenceUsage { derived ref item portDefinition : PortDefinition[0..*] ordered redefines occurrenceDefinition; } enum def PortionKind { enum 'timeslice'; enum 'snapshot'; } metadata def ReferenceUsage specializes Usage { derived attribute isReference : Boolean[1..1] redefines isReference; } metadata def RenderingDefinition specializes PartDefinition { derived ref item 'rendering' : RenderingUsage[0..*] ordered subsets usage; } metadata def RenderingUsage specializes PartUsage { derived ref item renderingDefinition : RenderingDefinition[0..1] redefines partDefinition; } enum def RequirementConstraintKind { enum assumption; enum 'requirement'; } metadata def RequirementConstraintMembership specializes FeatureMembership { attribute kind : RequirementConstraintKind[1..1]; derived item ownedConstraint : ConstraintUsage[1..1] redefines ownedMemberFeature; derived ref item referencedConstraint : ConstraintUsage[1..1]; } metadata def RequirementDefinition specializes ConstraintDefinition { attribute reqId : String[0..1] redefines declaredShortName; derived attribute text : String[0..*]; derived ref item subjectParameter : Usage[1..1] subsets parameter, usage; derived ref item actorParameter : PartUsage[0..*] ordered subsets usage, parameter; derived ref item stakeholderParameter : PartUsage[0..*] ordered subsets parameter, usage; derived ref item assumedConstraint : ConstraintUsage[0..*] ordered subsets ownedFeature; derived ref item requiredConstraint : ConstraintUsage[0..*] ordered subsets ownedFeature; derived ref item framedConcern : ConcernUsage[0..*] ordered subsets requiredConstraint; } metadata def RequirementUsage specializes ConstraintUsage { attribute reqId : String[0..1] redefines declaredShortName; derived attribute text : String[0..*]; derived ref item requirementDefinition : RequirementDefinition[0..1] redefines constraintDefinition; derived ref item requiredConstraint : ConstraintUsage[0..*] ordered subsets ownedFeature; derived ref item assumedConstraint : ConstraintUsage[0..*] ordered subsets ownedFeature; derived ref item subjectParameter : Usage[1..1] subsets parameter, usage; derived ref item framedConcern : ConcernUsage[0..*] ordered subsets requiredConstraint; derived ref item actorParameter : PartUsage[0..*] ordered subsets usage, parameter; derived ref item stakeholderParameter : PartUsage[0..*] ordered subsets parameter, usage; } metadata def RequirementVerificationMembership specializes RequirementConstraintMembership { attribute kind : RequirementConstraintKind[1..1] redefines kind; derived item ownedRequirement : RequirementUsage[1..1] redefines ownedConstraint; derived ref item verifiedRequirement : RequirementUsage[1..1] redefines referencedConstraint; } metadata def SatisfyRequirementUsage specializes RequirementUsage, AssertConstraintUsage { derived ref item satisfiedRequirement : RequirementUsage[1..1] redefines assertedConstraint; derived ref item satisfyingFeature : Feature[1..1]; } metadata def SendActionUsage specializes ActionUsage { derived ref item receiverArgument : Expression[0..1]; derived ref item payloadArgument : Expression[1..1]; derived ref item senderArgument : Expression[0..1]; } metadata def StakeholderMembership specializes ParameterMembership { derived item ownedStakeholderParameter : PartUsage[1..1] redefines ownedMemberParameter; } metadata def StateDefinition specializes ActionDefinition { attribute isParallel : Boolean[1..1]; derived ref item 'state' : StateUsage[0..*] ordered subsets 'action'; derived ref item entryAction : ActionUsage[0..1]; derived ref item doAction : ActionUsage[0..1]; derived ref item exitAction : ActionUsage[0..1]; } enum def StateSubactionKind { enum 'entry'; enum 'do'; enum 'exit'; } metadata def StateSubactionMembership specializes FeatureMembership { attribute kind : StateSubactionKind[1..1]; derived item 'action' : ActionUsage[1..1] redefines ownedMemberFeature; } metadata def StateUsage specializes ActionUsage { attribute isParallel : Boolean[1..1]; derived ref item stateDefinition : Behavior[0..*] ordered redefines actionDefinition; derived ref item entryAction : ActionUsage[0..1]; derived ref item doAction : ActionUsage[0..1]; derived ref item exitAction : ActionUsage[0..1]; } metadata def SubjectMembership specializes ParameterMembership { derived item ownedSubjectParameter : Usage[1..1] redefines ownedMemberParameter; } metadata def SuccessionAsUsage specializes ConnectorAsUsage, Succession; metadata def SuccessionFlowConnectionUsage specializes SuccessionItemFlow, FlowConnectionUsage; enum def TransitionFeatureKind { enum trigger; enum guard; enum effect; } metadata def TransitionFeatureMembership specializes FeatureMembership { attribute kind : TransitionFeatureKind[1..1]; derived item transitionFeature : Step[1..1] redefines ownedMemberFeature; } metadata def TransitionUsage specializes ActionUsage { derived ref item source : ActionUsage[1..1]; derived ref item target : ActionUsage[1..1]; derived ref item triggerAction : AcceptActionUsage[0..*] subsets ownedFeature; derived ref item guardExpression : Expression[0..*] subsets ownedFeature; derived ref item effectAction : ActionUsage[0..*] subsets feature; derived ref item 'succession' : Succession[1..1] subsets ownedMember; } metadata def TriggerInvocationExpression specializes InvocationExpression { attribute kind : TriggerKind[1..1]; } enum def TriggerKind { enum 'when'; enum 'at'; enum 'after'; } metadata def Usage specializes Feature { attribute isVariation : Boolean[1..1]; derived attribute isReference : Boolean[1..1]; derived ref item 'variant' : Usage[0..*] subsets ownedMember; derived item variantMembership : VariantMembership[0..*] subsets ownedMembership; derived ref item owningDefinition : Definition[0..1] subsets owningType; derived ref item owningUsage : Usage[0..1] subsets owningType; derived ref item definition : Classifier[0..*] ordered redefines type; derived ref item usage : Usage[0..*] ordered subsets feature; derived ref item directedUsage : Usage[0..*] ordered subsets usage, directedFeature; derived ref item nestedUsage : Usage[0..*] ordered subsets ownedFeature, usage; derived ref item nestedReference : ReferenceUsage[0..*] ordered subsets nestedUsage; derived ref item nestedAttribute : AttributeUsage[0..*] ordered subsets nestedUsage; derived ref item nestedEnumeration : EnumerationUsage[0..*] ordered subsets nestedAttribute; derived ref item nestedOccurrence : OccurrenceUsage[0..*] ordered subsets nestedUsage; derived ref item nestedItem : ItemUsage[0..*] ordered subsets nestedOccurrence; derived ref item nestedPart : PartUsage[0..*] ordered subsets nestedItem; derived ref item nestedPort : PortUsage[0..*] ordered subsets nestedUsage; derived ref item nestedConnection : ConnectorAsUsage[0..*] ordered subsets nestedPart; derived ref item nestedFlow : FlowConnectionUsage[0..*] subsets nestedConnection; derived ref item nestedInterface : InterfaceUsage[0..*] ordered subsets nestedConnection; derived ref item nestedAllocation : AllocationUsage[0..*] ordered subsets nestedConnection; derived ref item nestedAction : ActionUsage[0..*] ordered subsets nestedOccurrence; derived ref item nestedState : StateUsage[0..*] ordered subsets nestedAction; derived ref item nestedTransition : TransitionUsage[0..*] subsets nestedUsage; derived ref item nestedCalculation : CalculationUsage[0..*] ordered subsets nestedAction; derived ref item nestedConstraint : ConstraintUsage[0..*] ordered subsets nestedOccurrence; derived ref item nestedRequirement : RequirementUsage[0..*] ordered subsets nestedConstraint; derived ref item nestedConcern : ConcernUsage[0..*] subsets nestedRequirement; derived ref item nestedCase : CaseUsage[0..*] ordered subsets nestedCalculation; derived ref item nestedAnalysisCase : AnalysisCaseUsage[0..*] ordered subsets nestedCase; derived ref item nestedVerificationCase : VerificationCaseUsage[0..*] ordered subsets nestedCase; derived ref item nestedUseCase : UseCaseUsage[0..*] ordered subsets nestedCase; derived ref item nestedView : ViewUsage[0..*] ordered subsets nestedPart; derived ref item nestedViewpoint : ViewpointUsage[0..*] ordered subsets nestedRequirement; derived ref item nestedRendering : RenderingUsage[0..*] ordered subsets nestedPart; derived ref item nestedMetadata : MetadataUsage[0..*] ordered subsets nestedItem; } metadata def UseCaseDefinition specializes CaseDefinition { derived ref item includedUseCase : UseCaseUsage[0..*] ordered; } metadata def UseCaseUsage specializes CaseUsage { derived ref item useCaseDefinition : UseCaseDefinition[0..1] redefines caseDefinition; derived ref item includedUseCase : UseCaseUsage[0..*] ordered; } metadata def VariantMembership specializes OwningMembership { derived item ownedVariantUsage : Usage[1..1] redefines ownedMemberElement; } metadata def VerificationCaseDefinition specializes CaseDefinition { derived ref item verifiedRequirement : RequirementUsage[0..*] ordered; } metadata def VerificationCaseUsage specializes CaseUsage { derived ref item verificationCaseDefinition : VerificationCaseDefinition[0..1] subsets caseDefinition; derived ref item verifiedRequirement : RequirementUsage[0..*] ordered; } metadata def ViewDefinition specializes PartDefinition { derived ref item 'view' : ViewUsage[0..*] ordered subsets usage; derived ref item satisfiedViewpoint : ViewpointUsage[0..*] ordered subsets ownedRequirement; derived ref item viewRendering : RenderingUsage[0..1]; derived ref item viewCondition : Expression[0..*] ordered subsets ownedMember; } metadata def ViewRenderingMembership specializes FeatureMembership { derived item ownedRendering : RenderingUsage[1..1] redefines ownedMemberFeature; derived ref item referencedRendering : RenderingUsage[1..1]; } metadata def ViewUsage specializes PartUsage { derived ref item viewDefinition : ViewDefinition[0..1] redefines partDefinition; derived ref item satisfiedViewpoint : ViewpointUsage[0..*] ordered subsets nestedRequirement; derived ref item exposedElement : Element[0..*] ordered subsets member; derived ref item viewRendering : RenderingUsage[0..1]; derived ref item viewCondition : Expression[0..*] ordered subsets ownedMember; } metadata def ViewpointDefinition specializes RequirementDefinition { derived ref item viewpointStakeholder : PartUsage[0..*] ordered; } metadata def ViewpointUsage specializes RequirementUsage { derived ref item viewpointDefinition : ViewpointDefinition[0..1] redefines requirementDefinition; derived ref item viewpointStakeholder : PartUsage[0..*] ordered; } metadata def WhileLoopActionUsage specializes LoopActionUsage { derived ref item whileArgument : Expression[1..1]; derived ref item untilArgument : Expression[0..1]; } } }