File: uml2.py

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# This file is generated by build_uml.py. DO NOT EDIT!

from properties import association, attribute, enumeration, derivedunion, redefine
from element import Element
class Relationship(Element): pass
class DirectedRelationship(Relationship): pass
class Include(DirectedRelationship): pass
class NamedElement(Element): pass
class PackageableElement(NamedElement): pass
class Type(PackageableElement): pass
class RedefinableElement(NamedElement): pass
class ActivityNode(RedefinableElement): pass
class TypedElement(NamedElement): pass
class ObjectNode(ActivityNode, TypedElement): pass
class Pin(ObjectNode): pass
class InputPin(Pin): pass
class ValuePin(InputPin): pass
class ValueSpecification(TypedElement): pass
class LiteralSpecification(ValueSpecification): pass
class LiteralInteger(LiteralSpecification): pass
class ExecutableNode(ActivityNode): pass
class MultiplicityElement(Element): pass
class Feature(RedefinableElement): pass
class StructuralFeature(TypedElement, MultiplicityElement, Feature): pass
class Namespace(NamedElement): pass
class Classifier(Namespace, RedefinableElement, Type): pass
class Artifact(Classifier): pass
class ConnectableElement(TypedElement): pass
class BehavioralFeature(Namespace, Feature): pass
class BehavioredClassifier(Classifier): pass
class Class(BehavioredClassifier): pass
class Node(Class): pass
class Device(Node): pass
class InstanceSpecification(PackageableElement): pass
class EnumerationLiteral(InstanceSpecification): pass
class InteractionFragment(NamedElement): pass
class Behavior(Class): pass
class Interaction(InteractionFragment, Behavior): pass
class StructuredClassifier(Classifier): pass
class Expression(ValueSpecification): pass
class ConnectorEnd(MultiplicityElement): pass
class Package(PackageableElement, Namespace): pass
class ExtensionPoint(RedefinableElement): pass
class PackageMerge(DirectedRelationship): pass
class Vertex(NamedElement): pass
class State(Vertex, RedefinableElement, Namespace): pass
class FinalState(State): pass
class PackageImport(DirectedRelationship): pass
class ProfileApplication(PackageImport): pass
class Action(ExecutableNode): pass
class GeneralOrdering(NamedElement): pass
class Association(Classifier, Relationship): pass
class CommunicationPath(Association): pass
class Extension(Association): pass
class ControlNode(ActivityNode): pass
class JoinNode(ControlNode): pass
class Pseudostate(Vertex): pass
class Comment(Element): pass
class Slot(Element): pass
class Actor(Classifier): pass
class Region(Namespace, RedefinableElement): pass
class TaggedValue(ValueSpecification): pass
class Generalization(DirectedRelationship): pass
class Extend(DirectedRelationship): pass
class LiteralBoolean(LiteralSpecification): pass
class Dependency(DirectedRelationship, PackageableElement): pass
class Abstraction(Dependency): pass
class Manifestation(Abstraction): pass
class Realization(Abstraction): pass
class Implementation(Realization): pass
class ActivityGroup(Element): pass
class MergeNode(ControlNode): pass
class Transition(RedefinableElement, NamedElement): pass
class Permission(Dependency): pass
class ActivityEdge(RedefinableElement): pass
class ElementImport(DirectedRelationship): pass
class InitialNode(ControlNode): pass
class Parameter(TypedElement, MultiplicityElement): pass
class Presentation(Element): pass
class Component(Class): pass
class Constraint(PackageableElement): pass
class FinalNode(ControlNode): pass
class LiteralUnlimitedNatural(LiteralSpecification): pass
class UseCase(BehavioredClassifier): pass
class Interface(Classifier, ConnectableElement): pass
class Operation(BehavioralFeature): pass
class ControlFlow(ActivityEdge): pass
class Message(NamedElement): pass
class FlowFinalNode(FinalNode): pass
class Property(StructuralFeature, ConnectableElement): pass
class Activity(Behavior): pass
class Substitution(Realization): pass
class Stereotype(Class): pass
from diagram import Diagram
class StateMachine(Behavior): pass
class Connector(Feature): pass
class ConnectionPointReference(Vertex): pass
class MessageEnd(NamedElement): pass
class EventOccurrence(InteractionFragment, MessageEnd): pass
class ExecutionOccurence(InteractionFragment): pass
class DataType(Classifier): pass
class ObjectFlow(ActivityEdge): pass
class ActivityParameterNode(ObjectNode): pass
class OpaqueExpression(ValueSpecification): pass
class PrimitiveType(DataType): pass
class InstanceValue(ValueSpecification): pass
class ActivityFinalNode(FinalNode): pass
class Lifeline(NamedElement): pass
class ExecutionEnvironment(Node): pass
class DecisionNode(ControlNode): pass
class Usage(Dependency): pass
class OutputPin(Pin): pass
class ForkNode(ControlNode): pass
class ExtensionEnd(Property): pass
class LiteralString(LiteralSpecification): pass
class StateInvariant(InteractionFragment): pass
class Enumeration(DataType): pass
class Profile(Package): pass
class LiteralNull(LiteralSpecification): pass
class Stop(EventOccurrence): pass
LiteralInteger.value = attribute('value', int)
LiteralSpecification.value = attribute('value', object)
StructuralFeature.isReadOnly = attribute('isReadOnly', int, default=False)
BehavioralFeature.isAbstract = attribute('isAbstract', int)
RedefinableElement.isLeaf = attribute('isLeaf', int, default=True)
Expression.symbol = attribute('symbol', str)
Classifier.isAbstract = attribute('isAbstract', int, default=False)
Action.effect = attribute('effect', str)
Extension.isRequired = attribute('isRequired', int)
JoinNode.isCombineDuplicate = attribute('isCombineDuplicate', int, default=True)
NamedElement.visibility = enumeration('visibility', ('public', 'private', 'package', 'protected'), 'public')
NamedElement.name = attribute('name', str)
Pseudostate.kind = enumeration('kind', ('initial', 'deepHistory', 'shallowHistory', 'join', 'fork', 'junction', 'choice', 'entryPoint', 'exitPoint', 'terminate'), 'initial')
Comment.body = attribute('body', str)
TaggedValue.key = attribute('key', str)
Generalization.isSubstitutable = attribute('isSubstitutable', int)
ObjectNode.ordering = enumeration('ordering', ('unordered', 'ordered', 'LIFO', 'FIFO'), 'FIFO')
ObjectNode.isControlType = attribute('isControlType', int, default=False)
LiteralBoolean.value = attribute('value', int)
Transition.kind = enumeration('kind', ('internal', 'local', 'external'), 'internal')
PackageableElement.visibility = enumeration('visibility', ('public', 'private', 'package', 'protected'), 'public')
ElementImport.visibility = enumeration('visibility', ('public', 'private', 'package', 'protected'), 'public')
ElementImport.alias = attribute('alias', str)
Parameter.direction = enumeration('direction', ('inout', 'in', 'out', 'return'), 'in')
Component.isIndirectlyInstantiated = attribute('isIndirectlyInstantiated', int, default=True)
LiteralUnlimitedNatural.value = attribute('value', int)
Operation.isQuery = attribute('isQuery', int, default=False)

def message_messageKind(self):
    kind = 'unknown'
    if self.sendEvent:
        kind = 'lost'
        if self.receiveEvent:
            kind = 'complete'
    elif self.receiveEvent:
        kind = 'found'
    return kind

Message.messageKind = property(message_messageKind, doc="""
    MessageKind
    """)
del message_messageKind

Message.messageSort = enumeration('messageSort', ('synchCall', 'asynchCall', 'asynchSignal', 'createMessage', 'deleteMessage', 'reply'), 'synchCall')
Property.aggregation = enumeration('aggregation', ('none', 'shared', 'composite'), 'none')
Property.isDerivedUnion = attribute('isDerivedUnion', int, default=False)
Property.isDerived = attribute('isDerived', int, default=False)
Property.isComposite = property(lambda self: self.aggregation == intern('composite'))
Property.isReadOnly = attribute('isReadOnly', int, default=False)
Activity.body = attribute('body', str)
Activity.language = attribute('language', str)
Connector.kind = enumeration('kind', ('assembly', 'delegation'), 'assembly')
PackageImport.visibility = enumeration('visibility', ('public', 'private', 'package', 'protected'), 'public')
OpaqueExpression.language = attribute('language', str)
OpaqueExpression.body = attribute('body', str)
Feature.isStatic = attribute('isStatic', int, default=False)
Association.isDerived = attribute('isDerived', int, default=False)
Behavior.isReentrant = attribute('isReentrant', int)
LiteralString.value = attribute('value', str)
# Make it watch MultiplicityElement.lowerValue.value
def _get(self):
    return self.lowerValue and self.lowerValue.value
def _set(self, value):
    if not self.lowerValue:
        self.lowerValue = self._factory.create(LiteralString)
    self.lowerValue.value = value
def _del(self):
    if self.lowerValue:
        del self.lowerValue.value

MultiplicityElement.lower = property(_get, _set, _del)
del _get, _set, _del
MultiplicityElement.isUnique = attribute('isUnique', int, default=True)
MultiplicityElement.isOrdered = attribute('isOrdered', int, default=True)
# Make it watch MultiplicityElement.upperValue.value
def _get(self):
    return self.upperValue and self.upperValue.value
def _set(self, value):
    if not self.upperValue:
        self.upperValue = self._factory.create(LiteralString)
    self.upperValue.value = value
def _del(self):
    if self.upperValue:
        del self.upperValue.value

MultiplicityElement.upper = property(_get, _set, _del)
del _get, _set, _del
Connector.redefinedConnector = association('redefinedConnector', Connector)
BehavioralFeature.method = association('method', Behavior)
Operation.precondition = association('precondition', Constraint, composite=True)
Realization.abstraction = association('abstraction', Component, upper=1, opposite='realization')
Component.realization = association('realization', Realization, composite=True, opposite='abstraction')
Artifact.manifestation = association('manifestation', Manifestation, composite=True)
ConnectorEnd.role = association('role', ConnectableElement, upper=1, opposite='end')
ConnectableElement.end = association('end', ConnectorEnd, opposite='role')
Parameter.defaultValue = association('defaultValue', ValueSpecification, upper=1, composite=True)
Transition.target = association('target', Vertex, lower=1, upper=1, opposite='incoming')
Vertex.incoming = association('incoming', Transition, opposite='target')
ValuePin.value_ = association('value_', ValueSpecification, lower=1, upper=1, composite=True)
ExtensionPoint.useCase = association('useCase', UseCase, lower=1, upper=1, opposite='extensionPoint')
UseCase.extensionPoint = association('extensionPoint', ExtensionPoint, opposite='useCase')
Region.subvertex = association('subvertex', Vertex, composite=True, opposite='container')
Vertex.container = association('container', Region, upper=1, opposite='subvertex')
State.exit = association('exit', Behavior, upper=1, composite=True)
Class.nestedClassifier = association('nestedClassifier', Classifier, composite=True)
Slot.value = association('value', ValueSpecification, composite=True)
Message.interaction = association('interaction', Interaction, lower=1, upper=1, opposite='message')
Interaction.message = association('message', Message, composite=True, opposite='interaction')
Package.ownedDiagram = association('ownedDiagram', Diagram, composite=True, opposite='package')
Diagram.package = association('package', Package, upper=1, opposite='ownedDiagram')
Include.includingCase = association('includingCase', UseCase, lower=1, upper=1, opposite='include')
UseCase.include = association('include', Include, composite=True, opposite='includingCase')
ConnectionPointReference.entry = association('entry', Pseudostate)
Extension.ownedEnd = association('ownedEnd', ExtensionEnd, lower=1, upper=1, composite=True)
Include.addition = association('addition', UseCase, lower=1, upper=1)
Transition.guard = association('guard', Constraint, upper=1, composite=True)
BehavioralFeature.raisedException = association('raisedException', Type)
Lifeline.coveredBy = association('coveredBy', InteractionFragment, opposite='covered')
InteractionFragment.covered = association('covered', Lifeline, lower=1, upper=1, opposite='coveredBy')
InstanceValue.instance = association('instance', InstanceSpecification, lower=1, upper=1)
Lifeline.interaction = association('interaction', Interaction, lower=1, upper=1, opposite='lifeline')
Interaction.lifeline = association('lifeline', Lifeline, composite=True, opposite='interaction')
Pseudostate.state = association('state', State, upper=1)
Property.datatype = association('datatype', DataType, upper=1, opposite='ownedAttribute')
DataType.ownedAttribute = association('ownedAttribute', Property, composite=True, opposite='datatype')
Message.argument = association('argument', ValueSpecification, composite=True)
Realization.realizingClassifier = association('realizingClassifier', Classifier, lower=1, upper=1)
Package.nestedPackage = association('nestedPackage', Package, composite=True, opposite='package')
Package.package = association('package', Package, upper=1, opposite='nestedPackage')
Property.defaultValue = association('defaultValue', ValueSpecification, upper=1, composite=True)
TypedElement.type = association('type', Type, upper=1)
Constraint.specification = association('specification', ValueSpecification, lower=1, upper=1, composite=True)
Extend.extension = association('extension', UseCase, lower=1, upper=1, opposite='extend')
UseCase.extend = association('extend', Extend, composite=True, opposite='extension')
Constraint.constrainedElement = association('constrainedElement', Element)
StructuredClassifier.ownedAttribute = association('ownedAttribute', Property, composite=True)
MessageEnd.sendMessage = association('sendMessage', Message, upper=1, opposite='sendEvent')
Message.sendEvent = association('sendEvent', MessageEnd, upper=1, composite=True, opposite='sendMessage')
Region.state = association('state', State, upper=1)
Profile.metamodelReference = association('metamodelReference', PackageImport, composite=True)
PackageMerge.mergedPackage = association('mergedPackage', Package, lower=1, upper=1)
Message.signature = association('signature', NamedElement, upper=1)
Namespace.ownedRule = association('ownedRule', Constraint, composite=True)
Class.ownedOperation = association('ownedOperation', Operation, composite=True, opposite='class_')
Operation.class_ = association('class_', Class, upper=1, opposite='ownedOperation')
ExecutionOccurence.start = association('start', EventOccurrence, lower=1, upper=1, opposite='startExec')
EventOccurrence.startExec = association('startExec', ExecutionOccurence, opposite='start')
StructuredClassifier.ownedConnector = association('ownedConnector', Connector, composite=True)
Property.interface_ = association('interface_', Interface, upper=1, opposite='ownedAttribute')
Interface.ownedAttribute = association('ownedAttribute', Property, composite=True, opposite='interface_')
InteractionFragment.generalOrdering = association('generalOrdering', GeneralOrdering, composite=True)
Activity.action = association('action', Action, composite=True)
Namespace.elementImport = association('elementImport', ElementImport, composite=True, opposite='importingNamespace')
ElementImport.importingNamespace = association('importingNamespace', Namespace, upper=1, opposite='elementImport')
NamedElement.clientDependency = association('clientDependency', Dependency, opposite='client')
Dependency.client = association('client', NamedElement, lower=1, opposite='clientDependency')
StateMachine.region = association('region', Region, lower=1, composite=True, opposite='stateMachine')
Region.stateMachine = association('stateMachine', StateMachine, upper=1, opposite='region')
Transition.effect = association('effect', Behavior, upper=1, composite=True)
Element.presentation = association('presentation', Presentation, composite=True, opposite='subject')
Presentation.subject = association('subject', Element, upper=1, opposite='presentation')
MessageEnd.receiveMessage = association('receiveMessage', Message, upper=1, opposite='receiveEvent')
Message.receiveEvent = association('receiveEvent', MessageEnd, upper=1, composite=True, opposite='receiveMessage')
TypedElement.typeValue = association('typeValue', ValueSpecification, upper=1, composite=True)
StateMachine.extendedStateMachine = association('extendedStateMachine', StateMachine, upper=1)
Element.appliedStereotype = association('appliedStereotype', Stereotype)
Dependency.supplier = association('supplier', NamedElement, lower=1, opposite='supplierDependency')
NamedElement.supplierDependency = association('supplierDependency', Dependency, opposite='supplier')
Enumeration.literal = association('literal', EnumerationLiteral, composite=True, opposite='enumeration')
EnumerationLiteral.enumeration = association('enumeration', Enumeration, upper=1, opposite='literal')
Profile.metaclassReference = association('metaclassReference', ElementImport, composite=True)
Class.ownedAttribute = association('ownedAttribute', Property, composite=True, opposite='class_')
Property.class_ = association('class_', Class, upper=1, opposite='ownedAttribute')
Substitution.contract = association('contract', Classifier, lower=1, upper=1)
Property.association = association('association', Association, upper=1, opposite='memberEnd')
Association.memberEnd = association('memberEnd', Property, lower=2, composite=True, opposite='association')
DataType.ownedOperation = association('ownedOperation', Operation, composite=True, opposite='datatype')
Operation.datatype = association('datatype', DataType, upper=1, opposite='ownedOperation')
MultiplicityElement.lowerValue = association('lowerValue', ValueSpecification, upper=1, composite=True)
InstanceSpecification.classifier = association('classifier', Classifier)
Interface.nestedInterface = association('nestedInterface', Interface, composite=True)
Abstraction.mapping = association('mapping', Expression, lower=1, upper=1, composite=True)
ActivityEdge.source = association('source', ActivityNode, lower=1, upper=1, opposite='outgoing')
ActivityNode.outgoing = association('outgoing', ActivityEdge, opposite='source')
DecisionNode.decisionInput = association('decisionInput', Behavior, upper=1)
Activity.edge = association('edge', ActivityEdge, composite=True, opposite='activity')
ActivityEdge.activity = association('activity', Activity, upper=1, opposite='edge')
InteractionFragment.enclosingInteraction = association('enclosingInteraction', Interaction, upper=1, opposite='fragment')
Interaction.fragment = association('fragment', InteractionFragment, opposite='enclosingInteraction')
Extend.extendedCase = association('extendedCase', UseCase, lower=1, upper=1)
Property.redefinedProperty = association('redefinedProperty', Property)
State.statevariant = association('statevariant', Constraint, upper=1, composite=True, opposite='owningState')
Constraint.owningState = association('owningState', State, upper=1, opposite='statevariant')
StateInvariant.invariant = association('invariant', Constraint, lower=1, upper=1, composite=True)
JoinNode.joinSpec = association('joinSpec', ValueSpecification, lower=1, upper=1, composite=True)
Classifier.generalization = association('generalization', Generalization, composite=True, opposite='specific')
Generalization.specific = association('specific', Classifier, lower=1, upper=1, opposite='generalization')
Extend.extensionLocation = association('extensionLocation', ExtensionPoint, lower=1)
Operation.redefinedOperation = association('redefinedOperation', Operation)
ConnectionPointReference.state = association('state', State, upper=1)
Behavior.context = association('context', BehavioredClassifier, upper=1, opposite='ownedBehavior')
BehavioredClassifier.ownedBehavior = association('ownedBehavior', Behavior, composite=True, opposite='context')
Generalization.general = association('general', Classifier, lower=1, upper=1)
Extend.constraint = association('constraint', Constraint, upper=1, composite=True)
ActivityParameterNode.parameter = association('parameter', Parameter, lower=1, upper=1)
Transition.container = association('container', Region, lower=1, upper=1)
ActivityNode.incoming = association('incoming', ActivityEdge, opposite='target')
ActivityEdge.target = association('target', ActivityNode, lower=1, upper=1, opposite='incoming')
Connector.contract = association('contract', Behavior)
ExecutionOccurence.behavior = association('behavior', Behavior)
GeneralOrdering.before = association('before', EventOccurrence, lower=1, upper=1, opposite='toAfter')
EventOccurrence.toAfter = association('toAfter', GeneralOrdering, opposite='before')
Connector.end = association('end', ConnectorEnd, lower=2, composite=True)
Connector.type = association('type', Association, upper=1)
Operation.postcondition = association('postcondition', Constraint, composite=True)
State.submachine = association('submachine', StateMachine, upper=1)
Slot.definedFeature = association('definedFeature', StructuralFeature, lower=1, upper=1)
Property.actor = association('actor', Actor, upper=1, opposite='ownedAttribute')
Actor.ownedAttribute = association('ownedAttribute', Property, composite=True, opposite='actor')
Classifier.ownedUseCase = association('ownedUseCase', UseCase, composite=True)
ProfileApplication.importedProfile = association('importedProfile', Profile, lower=1, upper=1)
Profile.ownedStereotype = association('ownedStereotype', Stereotype, composite=True)
Namespace.packageImport = association('packageImport', PackageImport, composite=True, opposite='importingNamespace')
PackageImport.importingNamespace = association('importingNamespace', Namespace, upper=1, opposite='packageImport')
ElementImport.importedElement = association('importedElement', PackageableElement, lower=1, upper=1)
Behavior.redefinedBehavior = association('redefinedBehavior', Behavior)
State.doActivity = association('doActivity', Behavior, upper=1, composite=True)
MultiplicityElement.upperValue = association('upperValue', ValueSpecification, upper=1, composite=True)
Parameter.ownerReturnParam = association('ownerReturnParam', BehavioralFeature, upper=1, opposite='returnResult')
BehavioralFeature.returnResult = association('returnResult', Parameter, composite=True, opposite='ownerReturnParam')
Pseudostate.stateMachine = association('stateMachine', StateMachine, upper=1)
PackageMerge.mergingPackage = association('mergingPackage', Package, lower=1, upper=1, opposite='packageExtension')
Package.packageExtension = association('packageExtension', PackageMerge, composite=True, opposite='mergingPackage')
Lifeline.discriminator = association('discriminator', Expression, upper=1, composite=True)
Expression.operand = association('operand', ValueSpecification, composite=True)
NamedElement.taggedValue = association('taggedValue', ValueSpecification, composite=True)
Activity.group = association('group', ActivityGroup, composite=True, opposite='activity')
ActivityGroup.activity = association('activity', Activity, upper=1, opposite='group')
ConnectionPointReference.exit = association('exit', Pseudostate)
ActivityGroup.edgeContents = association('edgeContents', ActivityEdge, opposite='inGroup')
ActivityEdge.inGroup = association('inGroup', ActivityGroup, opposite='edgeContents')
Interface.ownedOperation = association('ownedOperation', Operation, composite=True, opposite='interface_')
Operation.interface_ = association('interface_', Interface, upper=1, opposite='ownedOperation')
State.entry = association('entry', Behavior, upper=1, composite=True)
ActivityEdge.guard = association('guard', ValueSpecification, lower=1, upper=1, composite=True)
Package.ownedClassifier = association('ownedClassifier', Type, composite=True, opposite='package')
Type.package = association('package', Package, upper=1, opposite='ownedClassifier')
Classifier.redefinedClassifier = association('redefinedClassifier', Classifier)
Element.ownedComment = association('ownedComment', Comment, opposite='annotatedElement')
Comment.annotatedElement = association('annotatedElement', Element, opposite='ownedComment')
Transition.source = association('source', Vertex, lower=1, upper=1, opposite='outgoing')
Vertex.outgoing = association('outgoing', Transition, opposite='source')
Slot.owningInstance = association('owningInstance', InstanceSpecification, lower=1, upper=1, opposite='slot')
InstanceSpecification.slot = association('slot', Slot, composite=True, opposite='owningInstance')
Package.appliedProfile = association('appliedProfile', ProfileApplication, composite=True)
ObjectNode.upperBound = association('upperBound', ValueSpecification, lower=1, upper=1, composite=True)
BehavioralFeature.formalParameter = association('formalParameter', Parameter, composite=True, opposite='ownerFormalParam')
Parameter.ownerFormalParam = association('ownerFormalParam', BehavioralFeature, upper=1, opposite='formalParameter')
Property.subsettedProperty = association('subsettedProperty', Property)
InstanceSpecification.specification = association('specification', ValueSpecification, upper=1, composite=True)
Activity.node = association('node', ActivityNode, composite=True)
Operation.bodyCondition = association('bodyCondition', Constraint, upper=1, composite=True)
Property.owningAssociation = association('owningAssociation', Association, upper=1, opposite='ownedEnd')
Association.ownedEnd = association('ownedEnd', Property, composite=True, opposite='owningAssociation')
Substitution.substitutingClassifier = association('substitutingClassifier', Classifier, lower=1, upper=1, opposite='substitution')
Classifier.substitution = association('substitution', Substitution, composite=True, opposite='substitutingClassifier')
ExecutionOccurence.finish = association('finish', EventOccurrence, lower=1, upper=1, opposite='finishExec')
EventOccurrence.finishExec = association('finishExec', ExecutionOccurence, opposite='finish')
ObjectNode.selection = association('selection', Behavior, upper=1)
Operation.raisedException = association('raisedException', Type)
PackageImport.importedPackage = association('importedPackage', Package, lower=1, upper=1)
ActivityGroup.nodeContents = association('nodeContents', ActivityNode, opposite='inGroup')
ActivityNode.inGroup = association('inGroup', ActivityGroup, opposite='nodeContents')
GeneralOrdering.after = association('after', EventOccurrence, lower=1, upper=1, opposite='toBefore')
EventOccurrence.toBefore = association('toBefore', GeneralOrdering, opposite='after')
UseCase.subject = association('subject', Classifier)
Interface.redefinedInterface = association('redefinedInterface', Interface)
UseCase.ownedAttribute = association('ownedAttribute', Property, composite=True, opposite='useCase')
Property.useCase = association('useCase', UseCase, upper=1, opposite='ownedAttribute')
ExtensionEnd.type = association('type', Stereotype, lower=1, upper=1)
Property.classifier = derivedunion('classifier', 0, 1, Property.useCase, Property.actor, Property.interface_, Property.datatype, Property.class_)
Transition.redefintionContext = derivedunion('redefintionContext', 1, 1)
RedefinableElement.redefinitionContext = derivedunion('redefinitionContext', 0, '*', Property.classifier, Operation.datatype, Transition.redefintionContext, Operation.class_)
Classifier.attribute = derivedunion('attribute', 0, '*', Interface.ownedAttribute, UseCase.ownedAttribute, Actor.ownedAttribute, Class.ownedAttribute, DataType.ownedAttribute)
Namespace.ownedMember = derivedunion('ownedMember', 0, '*', Interface.ownedOperation, UseCase.extensionPoint, Package.ownedClassifier, Enumeration.literal, Package.ownedDiagram, Region.subvertex, Interface.ownedAttribute, Namespace.ownedRule, Package.nestedPackage, Operation.bodyCondition, BehavioredClassifier.ownedBehavior, UseCase.ownedAttribute, StateInvariant.invariant, Operation.postcondition, Extend.constraint, DataType.ownedOperation, Operation.precondition, Actor.ownedAttribute, BehavioralFeature.returnResult, Interaction.lifeline, Profile.ownedStereotype, Class.nestedClassifier, Class.ownedAttribute, Classifier.ownedUseCase, BehavioralFeature.formalParameter, Interaction.message, StateMachine.region, DataType.ownedAttribute, Class.ownedOperation, Association.ownedEnd)
def classifier_general(self):
    return [g.general for g in self.generalization]

Classifier.general = property(classifier_general, doc="""
    Return a list of all superclasses for class (iterating the Generalizations.
    """)
del classifier_general
ActivityGroup.superGroup = derivedunion('superGroup', 0, 1)
NamedElement.namespace = derivedunion('namespace', 0, 1, Diagram.package, Property.owningAssociation, Property.useCase, Lifeline.interaction, Parameter.ownerReturnParam, Region.state, Property.actor, Operation.datatype, Type.package, Property.interface_, Property.datatype, Pseudostate.stateMachine, Vertex.container, ConnectionPointReference.state, Region.stateMachine, Property.class_, Message.interaction, Operation.interface_, EnumerationLiteral.enumeration, Package.package, Transition.container, Parameter.ownerFormalParam, Operation.class_)
Element.owner = derivedunion('owner', 0, 1, Realization.abstraction, ActivityEdge.activity, ActivityGroup.superGroup, Slot.owningInstance, NamedElement.namespace, PackageImport.importingNamespace, PackageMerge.mergingPackage, ElementImport.importingNamespace, ActivityGroup.activity, Pseudostate.state)
DirectedRelationship.target = derivedunion('target', 1, '*', Extend.extendedCase, Realization.realizingClassifier, PackageImport.importedPackage, Substitution.contract, PackageMerge.mergedPackage, Generalization.general, Include.addition, ElementImport.importedElement)
DirectedRelationship.source = derivedunion('source', 1, '*', Extend.extension, Realization.abstraction, Substitution.substitutingClassifier, PackageImport.importingNamespace, PackageMerge.mergingPackage, Include.includingCase, ElementImport.importingNamespace)
Relationship.relatedElement = derivedunion('relatedElement', 1, '*', DirectedRelationship.target, DirectedRelationship.source)
Classifier.inheritedMember = derivedunion('inheritedMember', 0, '*')

def property_opposite(self):
    """
    In the case where the property is one navigable end of a binary
    association with both ends navigable, this gives the other end.

    For Gaphor the property on the other end is returned regardless the
    navigability.
    """
    #if not self.owningAssociation and len(self.association.memberEnd) == 2:
    #    other_end = self.association.memberEnd[0] is self \
    #                and self.association.memberEnd[1] \
    #                or self.association.memberEnd[0]
    #    return other_end
    if self.association is not None and len(self.association.memberEnd) == 2:
        return self.association.memberEnd[0] is self \
               and self.association.memberEnd[1] \
               or self.association.memberEnd[0]
    return None

Property.opposite = property(property_opposite, doc=property_opposite.__doc__)

del property_opposite

ActivityGroup.superGroup = derivedunion('superGroup', 0, 1)
Classifier.feature = derivedunion('feature', 0, '*', StructuredClassifier.ownedConnector, Interface.ownedOperation, UseCase.extensionPoint, DataType.ownedOperation, Classifier.attribute, Class.ownedOperation, Association.ownedEnd)
StructuredClassifier.role = derivedunion('role', 0, '*', StructuredClassifier.ownedAttribute)
BehavioralFeature.parameter = derivedunion('parameter', 0, '*', BehavioralFeature.returnResult, BehavioralFeature.formalParameter)
Namespace.member = derivedunion('member', 0, '*', StructuredClassifier.role, Association.memberEnd, BehavioralFeature.parameter, Classifier.inheritedMember, Namespace.ownedMember)
DirectedRelationship.source = derivedunion('source', 1, '*', Extend.extension, Realization.abstraction, Substitution.substitutingClassifier, PackageImport.importingNamespace, PackageMerge.mergingPackage, Include.includingCase, ElementImport.importingNamespace)
Feature.featuringClassifier = derivedunion('featuringClassifier', 1, '*', Property.owningAssociation, Operation.datatype, Property.datatype, Property.class_, Operation.interface_, Operation.class_)
StructuredClassifier.role = derivedunion('role', 0, '*', StructuredClassifier.ownedAttribute)
Action.input = derivedunion('input', 0, '*')
Operation.type = derivedunion('type', 0, 1)
Action.output = derivedunion('output', 0, '*')
ActivityGroup.subgroup = derivedunion('subgroup', 0, '*')
Element.ownedElement = derivedunion('ownedElement', 0, '*', Expression.operand, Constraint.specification, Namespace.packageImport, Element.ownedComment, Activity.group, Lifeline.discriminator, ObjectNode.upperBound, MultiplicityElement.upperValue, Transition.guard, Package.packageExtension, State.entry, Substitution.contract, Action.input, InteractionFragment.generalOrdering, MultiplicityElement.lowerValue, Message.argument, InstanceSpecification.specification, Classifier.generalization, State.exit, ActivityEdge.guard, NamedElement.taggedValue, Slot.value, Namespace.ownedMember, Parameter.defaultValue, Interaction.fragment, State.statevariant, Namespace.elementImport, Action.output, Activity.edge, Property.defaultValue, ActivityGroup.subgroup, TypedElement.typeValue, State.doActivity, Connector.end, Transition.effect, Abstraction.mapping, Component.realization, JoinNode.joinSpec, Artifact.manifestation, Activity.node)
ConnectorEnd.definingEnd = derivedunion('definingEnd', 0, 1)
RedefinableElement.redefinedElement = derivedunion('redefinedElement', 0, '*', Property.redefinedProperty, Connector.redefinedConnector, Operation.redefinedOperation, Interface.redefinedInterface, Behavior.redefinedBehavior, Classifier.redefinedClassifier)
Action.context_ = derivedunion('context_', 0, 1)
import itertools

def _pr_interface_deps(classifier, dep_type):
    """
    Return all interfaces, which are connected to a classifier with given
    dependency type.
    """
    return (dep.supplier[0] for dep in classifier.clientDependency \
        if dep.isKindOf(dep_type) and dep.supplier[0].isKindOf(UML.Interface))

def _pr_rc_interface_deps(component, dep_type):
    """
    Return all interfaces, which are connected to realizing classifiers of
    specified component. Returned interfaces are connected to realizing
    classifiers with given dependency type.

    Generator of generators is returned. Do not forget to flat it later.
    """
    return (_pr_interface_deps(r.realizingClassifier, dep_type) for r in component.realization)

def component_provided(self):
    implementations = (impl.contract[0] for impl in self.implementation if impl.isKindOf(Implementation))
    realizations = _pr_interface_deps(self, Realization)

    # realizing classifiers realizations
    # this generator of generators, so flatten it later
    rc_realizations = _pr_rc_interface_deps(self, Realization)

    return tuple(set(itertools.chain(implementations, realizations, *rc_realizations)))

Component.provided = property(component_provided, doc="""
    Interfaces provided to component environment. 
    """)
del component_provided
Namespace.importedMember = derivedunion('importedMember', 0, '*')
StructuredClassifier.part = derivedunion('part', 0, '*')

Association.endType = property(lambda self: [end.type for end in self.memberEnd if end], doc="""
    References the classifiers that are used as types of the ends of the
    association.""")

def extension_metaclass(self):
    ownedEnd = self.ownedEnd
    return [c for c in self.memberEnd if c not in ownedEnd][0].type

Extension.metaclass = property(extension_metaclass, doc="""
    References the Class that is extended through an Extension. The
    property is derived from the type of the memberEnd that is not the
    ownedEnd.""")
del extension_metaclass
DirectedRelationship.target = derivedunion('target', 1, '*', Extend.extendedCase, Realization.realizingClassifier, PackageImport.importedPackage, Substitution.contract, PackageMerge.mergedPackage, Generalization.general, Include.addition, ElementImport.importedElement)
def class_extension(self):
    extension = []
    for e in self._factory.select(lambda e: e.isKindOf(Extension) and self in e.endType):

        extension.append(e)
    return extension

Class.extension = property(class_extension, doc="""
    References the Extensions that specify additional properties of the
    metaclass. The property is derived from the extensions whose memberEnds
    are typed by the Class.""")
del class_extension
BehavioralFeature.parameter = derivedunion('parameter', 0, '*', BehavioralFeature.returnResult, BehavioralFeature.formalParameter)
Transition.redefintionContext = derivedunion('redefintionContext', 1, 1)
def component_required(self):
    usages = _pr_interface_deps(self, Usage)

    # realizing classifiers usages
    # this generator of generators, so flatten it later
    rc_usages = _pr_rc_interface_deps(self, Usage)

    return tuple(set(itertools.chain(usages, *rc_usages)))

Component.required = property(component_required, doc="""
    Interfaces required by component. 
    """)
del component_required
Constraint.context = derivedunion('context', 0, 1)
Action.output = derivedunion('output', 0, '*')
NamedElement.namespace = derivedunion('namespace', 0, 1, Diagram.package, Property.owningAssociation, Property.useCase, Lifeline.interaction, Parameter.ownerReturnParam, Region.state, Property.actor, Operation.datatype, Type.package, Property.interface_, Property.datatype, Pseudostate.stateMachine, Vertex.container, ConnectionPointReference.state, Region.stateMachine, Property.class_, Message.interaction, Operation.interface_, EnumerationLiteral.enumeration, Package.package, Transition.container, Parameter.ownerFormalParam, Operation.class_)
Property.classifier = derivedunion('classifier', 0, 1, Property.useCase, Property.actor, Property.interface_, Property.datatype, Property.class_)
ActivityGroup.subgroup = derivedunion('subgroup', 0, '*')
ActivityEdge.redefinedElement = redefine(ActivityEdge, 'redefinedElement', ActivityEdge, RedefinableElement.redefinedElement)
BehavioredClassifier.implementation = redefine(BehavioredClassifier, 'implementation', Implementation, NamedElement.clientDependency)
Implementation.implementatingClassifier = redefine(Implementation, 'implementatingClassifier', BehavioredClassifier, Dependency.client)
Package.ownedMember = redefine(Package, 'ownedMember', PackageableElement, Namespace.ownedMember)
Transition.redefinedTransition = redefine(Transition, 'redefinedTransition', Transition, RedefinableElement.redefinedElement)
Implementation.contract = redefine(Implementation, 'contract', Interface, Dependency.supplier)
Parameter.operation = redefine(Parameter, 'operation', Operation, Parameter.ownerFormalParam)
Operation.formalParameter = redefine(Operation, 'formalParameter', Parameter, BehavioralFeature.formalParameter)
ActivityNode.redefinedElement = redefine(ActivityNode, 'redefinedElement', ActivityNode, RedefinableElement.redefinedElement)
Region.extendedRegion = redefine(Region, 'extendedRegion', Region, RedefinableElement.redefinedElement)
Component.ownedMember = redefine(Component, 'ownedMember', PackageableElement, Namespace.ownedMember)
Class.superClass = Classifier.general
State.redefinedState = redefine(State, 'redefinedState', State, RedefinableElement.redefinedElement)
from umllex import parse_operation
Operation.parse = parse_operation
del parse_operation
from umllex import render_operation
Operation.render = render_operation
del render_operation
from umllex import parse_property
Property.parse = parse_property
del parse_property
from umllex import render_property
Property.render = render_property
del render_property
from umllex import parse_lifeline
Lifeline.parse = parse_lifeline
del parse_lifeline
from umllex import render_lifeline
Lifeline.render = render_lifeline
del render_lifeline