Rules

• Name: The value can be anything.

  The name of the item.

• Keywords: The value can be anything.

  A keyword is a lightweight variant of a stereotype to extend the semantics of a model element. As opposite of stereotypes, keywords does not have do be defined in a profile.

  If several keywords are given, they should be separated by commas.

• Stereotypes: The value can be anything.

  A stereotype defines how a model element may be extended, and enables the use of platform or domain specific terminology or notation in place of, or in addition to, the ones used for the extended metaclass.

  Stereotypes should be given in the format 'profile::stererotype'. Stereotypes should be separated by commas.

• Documentation: The value can be anything.

  A textual description of the element.

• Visibility: The value shall be a valid literal from the enumeration Visibility Kind.

  Determines where the item appears within different Namespaces within the overall model, and its accessibility.

• Specification: The value can be anything.

  Designates a behavioral feature that the behavior implements.

  The behavioral feature must be owned by the classifier that owns the behavior or be inherited by it. The parameters of the behavioral feature and the implementing behavior must match.

  If a behavior does not have a specification, it is directly associated with a classifier (i.e., it is the behavior of the classifier as a whole).

• Abstract: The value can be anything.

  If true, the Classifier does not provide a complete declaration and can typically not be instantiated.

  An abstract classifier is intended to be used by other classifiers e.g. as the target of general metarelationships or generalization relationships.

• Active: The value can be anything.

  Determines whether an object specified by this classifier is active or not. If true, then the owning classifier is referred to as an active classifier. If false, then such a classifier is referred to as a passive classifier.

• Leaf: The value shall be non-empty.

  Indicates whether it is possible to further specialize an item. If the value is true, then it is not possible to further specialize the item.

• Read Only: The value shall be non-empty.

  If true, this activity must not make any changes to variables outside the activity or to objects.

  (This is an assertion, not an executable property. It may be used by an execution engine to optimize model execution. If the assertion is violated by the action, then the model is ill-formed.)

  The default is false (an activity may make nonlocal changes).

• Reentrant: The value can be anything.

  Tells whether the behavior can be invoked while it is still executing from a previous invocation.

• Single Execution: The value shall be non-empty.

  If true, all invocations of the activity are handled by the same execution.

• Context: The value can be anything.

  The classifier that is the context for the execution of the behavior.

  If the behavior is owned by a BehavioredClassifier, that classifier is the context. Otherwise, the context is the first BehavioredClassifier reached by following the chain of owner relationships.

  For example, following this algorithm, the context of an entry action in a state machine is the classifier that owns the state machine. The features of the context classifier as well as the elements visible to the context classifier are visible to the behavior

An element of one of the following kinds:

• Activity (Activity)

  An activity is the specification of parameterized behavior as the coordinated sequencing of subordinate units whose individual elements are actions.

• Actor (Actor)

  An actor specifies a role played by a user or any other system that interacts with the subject.

• Association (Association)

  An association describes a set of tuples whose values refer to typed instances. An instance of an association is called a link.

• Class (Class)

  A class describes a set of objects that share the same specifications of features, constraints, and semantics.

  A class may be designated as active (i.e., each of its instances having its own thread of control) or passive (i.e., each of its instances executing within the context of some other object).

  A class may also specify which signals the instances of this class handle. A class has the capability to have an internal structure and ports. Class has derived association that indicates how it may be extended through one or more stereotypes. Stereotype is the only kind of metaclass that cannot be extended by stereotypes.

• Collaboration (Collaboration)

  A collaboration defines a set of co-operating roles used collectively to illustrate a specific functionality.

  A collaboration should only show the roles and attributes required to accomplish its defined task or function. Isolating the primary roles is an exercise in simplifying the structure and clarifying the behavior, and also provides for re-use. A collaboration often implements a pattern.

• Communication Path (Communication Path)

  A communication path is an association between two deployment targets, through which they are able to exchange signals and messages.

• Component (Component)

  A component represents a modular part of a system that encapsulates its contents and whose manifestation is replaceable within its environment.

  In the namespace of a component, all model elements that are involved in or related to its definition are either owned or imported explicitly. This may include, for example, use cases and dependencies (e.g. mappings), packages, components, and artifacts.

• Device (Device)

  A device is a physical computational resource with processing capability upon which artifacts may be deployed for execution.

  Devices may be complex (i.e., they may consist of other devices).

• Execution Environment (Execution Environment)

  An execution environment is a node that offers an execution environment for specific types of components that are deployed on it in the form of executable artifacts.

• Extension (Extension)

  An extension is used to indicate that the properties of a metaclass are extended through a stereotype, and gives the ability to flexibly add (and later remove) stereotypes to classes.

• Final State (Final State)

  A special kind of state signifying that the enclosing region is completed.

  If the enclosing region is directly contained in a state machine and all other regions in the state machine also are completed, then it means that the entire state machine is completed.

• Interaction (Interaction)

  An interaction is a unit of behavior that focuses on the observable exchange of information between connectable elements.

• Interface (Interface)

  An interface is a kind of classifier that represents a declaration of a set of coherent public features and obligations.

  An interface specifies a contract; any instance of a classifier that realizes the interface must fulfill that contract.

  The obligations that may be associated with an interface are in the form of various kinds of constraints (such as pre- and post-conditions) or protocol specifications, which may impose ordering restrictions on interactions through the interface.

  Interfaces may include receptions (in addition to operations). Since an interface specifies conformance characteristics, it does not own detailed behavior specifications. Instead, interfaces may own a protocol state machine that specifies event sequences and pre/post conditions for the operations and receptions described by the interface.

• Model (Model)

  A model captures a view of a physical system. It is an abstraction of the physical system, with a certain purpose.

  This purpose determines what is to be included in the model and what is irrelevant. Thus the model completely describes those aspects of the physical system that are relevant to the purpose of the model, at the appropriate level of detail.

• Node (Node)

  A node is computational resource upon which artifacts may be deployed for execution. Nodes can be interconnected through communication paths to define network structures.

• Opaque Behavior (Opaque Behavior)

  An behavior with implementation-specific semantics.

• Package (Package)

  A package is used to group elements, and provides a namespace for the grouped elements.

  A package can have one or more profile applications to indicate which profiles have been applied.

• Profile (Profile)

  A profile defines limited extensions to a reference metamodel with the purpose of adapting the metamodel to a specific platform or domain.

• Protocol State Machine (Protocol State Machine)

  A protocol state machine is always defined in the context of a classifier. It specifies which operations of the classifier can be called in which state and under which condition, thus specifying the allowed call sequences on the classifier's operations.

  A protocol state machine presents the possible and permitted transitions on the instances of its context classifier, together with the operations which carry the transitions. In this manner, an instance lifecycle can be created for a classifier, by specifying the order in which the operations can be activated and the states through which an instance progresses during its existence.

• Protocol Transition (Protocol Transition)

  A protocol transition specifies a legal transition for an operation.

  Transitions of protocol state machines have the following information: a pre condition (guard), on trigger, and a post condition.

  Every protocol transition is associated to zero or one operation (referred BehavioralFeature) that belongs to the context classifier of the protocol state machine.

• State (State)

  A state models a situation during which some (usually implicit) invariant condition holds.

  The states of protocol state machines are exposed to the users of their context classifiers. A protocol state represents an exposed stable situation of its context classifier: when an instance of the classifier is not processing any operation, users of this instance can always know its state configuration.

• State Machine (State Machine)

  State machines can be used to express the behavior of part of a system.

  Behavior is modeled as a traversal of a graph of state nodes interconnected by one or more joined transition arcs that are triggered by the dispatching of series of (event) occurrences. During this traversal, the state machine executes a series of activities associated with various elements of the state machine.

• Stereotype (Stereotype)

  A stereotype defines how an existing metaclass may be extended, and enables the use of platform or domain specific terminology or notation in place of, or in addition to, the ones used for the extended metaclass.

• Template Parameter (Template Parameter)

  A template parameter exposes a parameterable element as a formal template parameter of a template.

• Transition (Transition)

  A transition is a directed relationship between a source vertex and a target vertex.

  It may be part of a compound transition, which takes the state machine from one state configuration to another, representing the complete response of the state machine to an occurrence of an event of a particular type.

• Use Case (Use Case)

  A use case is the specification of a set of actions performed by a system, which yields an observable result that is, typically, of value for one or more actors or other stakeholders of the system.

Rules

• Arbitrary number of elements of the following kinds:
  • Accept Call Action (Action)

    A constraint is a condition or restriction expressed in natural language text or in a machine readable language for the purpose of declaring some of the semantics of an element.

    A constraint is a condition or restriction expressed in natural language text or in a machine readable language for the purpose of declaring some of the semantics of an element.

    An action is a named element that is the fundamental unit of executable functionality.

    The execution of an action represents some transformation or processing in the modeled system, be it a computer system or otherwise.

    An action represents a single step within an activity, that is, one that is not further decomposed within the activity.

    An action has pre- and post-conditions.

    A accept event action is an action that waits for the occurrence of an event meeting specified conditions.

    An accept call action is an accept event action representing the receipt of a synchronous call request. In addition to the normal operation parameters, the action produces an output that is needed later to supply the information to the reply action necessary to return control to the caller. This action is for synchronous calls. If it is used to handle an asynchronous call, execution of the subsequent reply action will complete immediately with no effects.

  • Accept Event Action (Action)

    A constraint is a condition or restriction expressed in natural language text or in a machine readable language for the purpose of declaring some of the semantics of an element.

    An action is a named element that is the fundamental unit of executable functionality.

    The execution of an action represents some transformation or processing in the modeled system, be it a computer system or otherwise.

    An action represents a single step within an activity, that is, one that is not further decomposed within the activity.

    An action has pre- and post-conditions.

    A accept event action is an action that waits for the occurrence of an event meeting specified conditions.

  • Action Input Pin (Pin)

    A pin provides values to actions and accept result values from them. A pin is an object node for inputs and outputs to actions.

    An input pin is a pin that holds input values to be consumed by an action.

    An action input pin is a kind of pin that executes an action to determine the values to input to another.

  • Activity (Activity)

    An activity is the specification of parameterized behavior as the coordinated sequencing of subordinate units whose individual elements are actions.

  • Activity Final Node (Control Node)

    A control node is an abstract activity node that coordinates flows in an activity.

    A final node is an abstract control node at which a flow in an activity stops.

    An activity final node is a final node that stops all flows in an activity.

  • Activity Parameter Node (Object Node)

    An object node is an abstract activity node that is part of defining object flow in an activity. Object nodes have support for token selection, limitation on the number of tokens, specifying the state required for tokens, and carrying control values.

    An activity parameter node is an object node for inputs and outputs to activities.

  • Activity Partition (Activity Partition)

    An activity partition is a kind of activity group for identifying actions that have some characteristic in common.

  • Actor (Actor)

    An actor specifies a role played by a user or any other system that interacts with the subject.

  • Add Structural Feature Value Action (Action)

    An action is a named element that is the fundamental unit of executable functionality.

    The execution of an action represents some transformation or processing in the modeled system, be it a computer system or otherwise.

    An action represents a single step within an activity, that is, one that is not further decomposed within the activity.

    An action has pre- and post-conditions.

    A read structural feature action is a structural feature action that retrieves the values of a structural feature.

    A read structural feature action is a structural feature action that retrieves the values of a structural feature.

    A constraint is a condition or restriction expressed in natural language text or in a machine readable language for the purpose of declaring some of the semantics of an element.

    An add structural feature value action is a write structural feature action for adding values to a structural feature.

  • Add Variable Value Action (Action)

    An action is a named element that is the fundamental unit of executable functionality.

    The execution of an action represents some transformation or processing in the modeled system, be it a computer system or otherwise.

    An action represents a single step within an activity, that is, one that is not further decomposed within the activity.

    An action has pre- and post-conditions.

    A remove variable value action is a write variable action that removes values from variables.

    WriteVariableAction is an abstract class for variable actions that change variable values.

    A constraint is a condition or restriction expressed in natural language text or in a machine readable language for the purpose of declaring some of the semantics of an element.

    An add variable value action is a write variable action for adding values to a variable.

  • Artifact (Artifact)

    An artifact is the specification of a physical piece of information that is used or produced by a software development process, or by deployment and operation of a system.

    Examples of artifacts include model files, source files, scripts, and binary executable files, a table in a database system, a development deliverable, or a word-processing document, a mail message. An artifact is the source of a deployment to a node.

  • Association (Association)

    An association describes a set of tuples whose values refer to typed instances. An instance of an association is called a link.

  • Association End (Association End)

    A property is a structural feature of a classifier that characterizes instances of the classifier.

    A property may represents an attribute and might also represent an association end. It relates an instance of the class to a value or set of values of the type of the attribute.

    A property related by memberEnd or its specializations to an association represents an end of the association. The type of the property is the type of the end of the association.

    An association End is a property that has a reference to an association.

  • Attribute (Attribute)

    A property is a structural feature of a classifier that characterizes instances of the classifier.

    A property may represents an attribute and might also represent an association end. It relates an instance of the class to a value or set of values of the type of the attribute.

    A property related by memberEnd or its specializations to an association represents an end of the association. The type of the property is the type of the end of the association.

    An attribute is a property that has no reference to an association.

  • Broadcast Signal Action (Action)

    An action is a named element that is the fundamental unit of executable functionality.

    The execution of an action represents some transformation or processing in the modeled system, be it a computer system or otherwise.

    An action represents a single step within an activity, that is, one that is not further decomposed within the activity.

    An action has pre- and post-conditions.

    InvocationAction is an abstract class for the various actions that invoke behavior. In addition to targeting an object, invocation actions can also invoke behavioral features on ports from where the invocation requests are routed onwards on links deriving from attached connectors. Invocation actions may also be sent to a target via a given port, either on the sending object or on another object.

    A constraint is a condition or restriction expressed in natural language text or in a machine readable language for the purpose of declaring some of the semantics of an element.

    A broadcast signal action is an action that transmits a signal instance to all the potential target objects in the system, which may cause the firing of a state machine transitions or the execution of associated activities of a target object. The argument values are available to the execution of associated behaviors. The requestor continues execution immediately after the signals are sent out. It does not wait for receipt. Any reply messages are ignored and are not transmitted to the requestor.

  • Call Behavior Action (Action)

    A constraint is a condition or restriction expressed in natural language text or in a machine readable language for the purpose of declaring some of the semantics of an element.

    An action is a named element that is the fundamental unit of executable functionality.

    The execution of an action represents some transformation or processing in the modeled system, be it a computer system or otherwise.

    An action represents a single step within an activity, that is, one that is not further decomposed within the activity.

    An action has pre- and post-conditions.

    InvocationAction is an abstract class for the various actions that invoke behavior. In addition to targeting an object, invocation actions can also invoke behavioral features on ports from where the invocation requests are routed onwards on links deriving from attached connectors. Invocation actions may also be sent to a target via a given port, either on the sending object or on another object.

    CallAction is an abstract class for actions that invoke behavior and receive return values.

    A call behavior action is a call action that invokes a behavior directly rather than invoking a behavioral feature that, in turn, results in the invocation of that behavior. The argument values of the action are available to the execution of the invoked behavior. For synchronous calls the execution of the call behavior action waits until the execution of the invoked behavior completes and a result is returned on its output pin. The action completes immediately without a result, if the call is asynchronous. In particular, the invoked behavior may be an activity.

  • Call Operation Action (Action)

    A constraint is a condition or restriction expressed in natural language text or in a machine readable language for the purpose of declaring some of the semantics of an element.

    An action is a named element that is the fundamental unit of executable functionality.

    The execution of an action represents some transformation or processing in the modeled system, be it a computer system or otherwise.

    An action represents a single step within an activity, that is, one that is not further decomposed within the activity.

    An action has pre- and post-conditions.

    InvocationAction is an abstract class for the various actions that invoke behavior. In addition to targeting an object, invocation actions can also invoke behavioral features on ports from where the invocation requests are routed onwards on links deriving from attached connectors. Invocation actions may also be sent to a target via a given port, either on the sending object or on another object.

    CallAction is an abstract class for actions that invoke behavior and receive return values.

    A call operation action is an action that transmits an operation call request to the target object, where it may cause the invocation of associated behavior. The argument values of the action are available to the execution of the invoked behavior. If the action is marked synchronous, the execution of the call operation action waits until the execution of the invoked behavior completes and a reply transmission is returned to the caller; otherwise execution of the action is complete when the invocation of the operation is established and the execution of the invoked operation proceeds concurrently with the execution of the calling behavior. Any values returned as part of the reply transmission are put on the result output pins of the call operation action. Upon receipt of the reply transmission, execution of the call operation action is complete.

  • Central Buffer (Object Node)

    An object node is an abstract activity node that is part of defining object flow in an activity. Object nodes have support for token selection, limitation on the number of tokens, specifying the state required for tokens, and carrying control values.

    A central buffer node is an object node for managing flows from multiple sources and destinations.

  • Class (Class)

    A class describes a set of objects that share the same specifications of features, constraints, and semantics.

    A class may be designated as active (i.e., each of its instances having its own thread of control) or passive (i.e., each of its instances executing within the context of some other object).

    A class may also specify which signals the instances of this class handle. A class has the capability to have an internal structure and ports. Class has derived association that indicates how it may be extended through one or more stereotypes. Stereotype is the only kind of metaclass that cannot be extended by stereotypes.

  • Clear Association Action (Action)

    A constraint is a condition or restriction expressed in natural language text or in a machine readable language for the purpose of declaring some of the semantics of an element.

    An action is a named element that is the fundamental unit of executable functionality.

    The execution of an action represents some transformation or processing in the modeled system, be it a computer system or otherwise.

    An action represents a single step within an activity, that is, one that is not further decomposed within the activity.

    An action has pre- and post-conditions.

    A clear association action is an action that destroys all links of an association in which a particular object participates.

  • Clear Structural Feature Action (Action)

    An action is a named element that is the fundamental unit of executable functionality.

    The execution of an action represents some transformation or processing in the modeled system, be it a computer system or otherwise.

    An action represents a single step within an activity, that is, one that is not further decomposed within the activity.

    An action has pre- and post-conditions.

    A read structural feature action is a structural feature action that retrieves the values of a structural feature.

    A constraint is a condition or restriction expressed in natural language text or in a machine readable language for the purpose of declaring some of the semantics of an element.

    A clear structural feature action is a structural feature action that removes all values of a structural feature.

  • Clear Variable Action (Action)

    A constraint is a condition or restriction expressed in natural language text or in a machine readable language for the purpose of declaring some of the semantics of an element.

    An action is a named element that is the fundamental unit of executable functionality.

    The execution of an action represents some transformation or processing in the modeled system, be it a computer system or otherwise.

    An action represents a single step within an activity, that is, one that is not further decomposed within the activity.

    An action has pre- and post-conditions.

    A remove variable value action is a write variable action that removes values from variables.

    A clear variable action is a variable action that removes all values of a variable.

  • Collaboration (Collaboration)

    A collaboration defines a set of co-operating roles used collectively to illustrate a specific functionality.

    A collaboration should only show the roles and attributes required to accomplish its defined task or function. Isolating the primary roles is an exercise in simplifying the structure and clarifying the behavior, and also provides for re-use. A collaboration often implements a pattern.

  • Collaboration Use (Collaboration Use)

    A collaboration use represents one particular use of a collaboration to explain the relationships between the properties of a classifier.

    A collaboration use shows how the pattern described by a collaboration is applied in a given context, by binding specific entities from that context to the roles of the collaboration. Depending on the context, these entities could be structural features of a classifier, instance specifications, or even roles in some containing collaboration. There may be multiple occurrences of a given collaboration within a classifier, each involving a different set of roles and connectors.

    A given role or connector may be involved in multiple occurrences of the same or different collaborations. Associated dependencies map features of the collaboration type to features in the classifier. These dependencies indicate which role in the classifier plays which role in the collaboration.

  • Communication Path (Communication Path)

    A communication path is an association between two deployment targets, through which they are able to exchange signals and messages.

  • Component (Component)

    A component represents a modular part of a system that encapsulates its contents and whose manifestation is replaceable within its environment.

    In the namespace of a component, all model elements that are involved in or related to its definition are either owned or imported explicitly. This may include, for example, use cases and dependencies (e.g. mappings), packages, components, and artifacts.

  • Conditional Node (Action)

    A constraint is a condition or restriction expressed in natural language text or in a machine readable language for the purpose of declaring some of the semantics of an element.

    An action is a named element that is the fundamental unit of executable functionality.

    The execution of an action represents some transformation or processing in the modeled system, be it a computer system or otherwise.

    An action represents a single step within an activity, that is, one that is not further decomposed within the activity.

    An action has pre- and post-conditions.

    A structured activity node is an executable activity node that may have an expansion into subordinate nodes as an activity group. The subordinate nodes must belong to only one structured activity node, although they may be nested. Because of the concurrent nature of the execution of actions within and across activities, it can be difficult to guarantee the consistent access and modification of object memory. In order to avoid race conditions or other concurrency-related problems, it is sometimes necessary to isolate the effects of a group of actions from the effects of actions outside the group. This may be indicated by setting the mustIsolate attribute to true on a structured activity node. If a structured activity node is "isolated," then any object used by an action within the node cannot be accessed by any action outside the node until the structured activity node as a whole completes. Any concurrent actions that would result in accessing such objects are required to have their execution deferred until the completion of the node.

    A constraint is a condition or restriction expressed in natural language text or in a machine readable language for the purpose of declaring some of the semantics of an element.

    A conditional node is a structured activity node that represents an exclusive choice among some number of alternatives.

  • Connector (Connector)

    Specifies a link that enables communication between two or more instances. This link may be an instance of anassociation, or it may represent the possibility of the instances being able to communicate because their identitiesare known by virtue of being passed in as parameters, held in variables or slots, or because the communicatinginstances are the same instance.

    The link may be realized by something as simple as a pointer or by something ascomplex as a network connection. In contrast to associations, which specify links between any instance of theassociated classifiers, connectors specify links between instances playing the connected parts only.

  • Constraint (Constraint)

    A constraint is a condition or restriction expressed in natural language text or in a machine readable language for the purpose of declaring some of the semantics of an element.

  • Control Flow (Control Flow)

    A control flow is an edge that starts an activity node after the previous one is finished.

  • Create Link Action (Action)

    An action is a named element that is the fundamental unit of executable functionality.

    The execution of an action represents some transformation or processing in the modeled system, be it a computer system or otherwise.

    An action represents a single step within an activity, that is, one that is not further decomposed within the activity.

    An action has pre- and post-conditions.

    A read link action is a link action that navigates across associations to retrieve objects on one end.

    WriteLinkAction is an abstract class for link actions that create and destroy links.

    A constraint is a condition or restriction expressed in natural language text or in a machine readable language for the purpose of declaring some of the semantics of an element.

    A create link action is a write link action for creating links.

  • Create Link Object Action (Action)

    An action is a named element that is the fundamental unit of executable functionality.

    The execution of an action represents some transformation or processing in the modeled system, be it a computer system or otherwise.

    An action represents a single step within an activity, that is, one that is not further decomposed within the activity.

    An action has pre- and post-conditions.

    A read link action is a link action that navigates across associations to retrieve objects on one end.

    WriteLinkAction is an abstract class for link actions that create and destroy links.

    A constraint is a condition or restriction expressed in natural language text or in a machine readable language for the purpose of declaring some of the semantics of an element.

    A create link object action creates a link object.

  • Create Object Action (Action)

    A constraint is a condition or restriction expressed in natural language text or in a machine readable language for the purpose of declaring some of the semantics of an element.

    An action is a named element that is the fundamental unit of executable functionality.

    The execution of an action represents some transformation or processing in the modeled system, be it a computer system or otherwise.

    An action represents a single step within an activity, that is, one that is not further decomposed within the activity.

    An action has pre- and post-conditions.

    A create object action is an action that creates an object that conforms to a statically specified classifier and puts it on an output pin at runtime.

  • Data Store Node (Object Node)

    An object node is an abstract activity node that is part of defining object flow in an activity. Object nodes have support for token selection, limitation on the number of tokens, specifying the state required for tokens, and carrying control values.

    A central buffer node is an object node for managing flows from multiple sources and destinations.

    A data store node is a central buffer node for non-transient information.

  • Data Type (Data Type)

    A data type is a type whose instances are identified only by their value. A data type may contain attributes to support the modeling of structured data types.

  • Decision Node (Control Node)

    A control node is an abstract activity node that coordinates flows in an activity.

    A decision node is a control node that chooses between outgoing flows.

  • Deployment Specification (Deployment Specification)

    A deployment specification specifies a set of properties that determine execution parameters of a component artifact that is deployed on a node.

    A deployment specification can be aimed at a specific type of container. An artifact that reifies or implements deployment specification properties is a deployment descriptor.

  • Destroy Link Action (Action)

    An action is a named element that is the fundamental unit of executable functionality.

    The execution of an action represents some transformation or processing in the modeled system, be it a computer system or otherwise.

    An action represents a single step within an activity, that is, one that is not further decomposed within the activity.

    An action has pre- and post-conditions.

    A read link action is a link action that navigates across associations to retrieve objects on one end.

    WriteLinkAction is an abstract class for link actions that create and destroy links.

    A constraint is a condition or restriction expressed in natural language text or in a machine readable language for the purpose of declaring some of the semantics of an element.

    A destroy link action is a write link action that destroys links and link objects.

  • Destroy Object Action (Action)

    A constraint is a condition or restriction expressed in natural language text or in a machine readable language for the purpose of declaring some of the semantics of an element.

    An action is a named element that is the fundamental unit of executable functionality.

    The execution of an action represents some transformation or processing in the modeled system, be it a computer system or otherwise.

    An action represents a single step within an activity, that is, one that is not further decomposed within the activity.

    An action has pre- and post-conditions.

    A destroy object action is an action that destroys objects.

  • Device (Device)

    A device is a physical computational resource with processing capability upon which artifacts may be deployed for execution.

    Devices may be complex (i.e., they may consist of other devices).

  • Enumeration (Enumeration)

    An enumeration is a data type whose values are enumerated in the model as enumeration literals.

  • Execution Environment (Execution Environment)

    An execution environment is a node that offers an execution environment for specific types of components that are deployed on it in the form of executable artifacts.

  • Expansion Node (Object Node)

    An object node is an abstract activity node that is part of defining object flow in an activity. Object nodes have support for token selection, limitation on the number of tokens, specifying the state required for tokens, and carrying control values.

    An expansion node is an object node used to indicate a flow across the boundary of an expansion region. A flow into a region contains a collection that is broken into its individual elements inside the region, which is executed once per element. A flow out of a region combines individual elements into a collection for use outside the region.

  • Expansion Region (Action)

    A constraint is a condition or restriction expressed in natural language text or in a machine readable language for the purpose of declaring some of the semantics of an element.

    An action is a named element that is the fundamental unit of executable functionality.

    The execution of an action represents some transformation or processing in the modeled system, be it a computer system or otherwise.

    An action represents a single step within an activity, that is, one that is not further decomposed within the activity.

    An action has pre- and post-conditions.

    A structured activity node is an executable activity node that may have an expansion into subordinate nodes as an activity group. The subordinate nodes must belong to only one structured activity node, although they may be nested. Because of the concurrent nature of the execution of actions within and across activities, it can be difficult to guarantee the consistent access and modification of object memory. In order to avoid race conditions or other concurrency-related problems, it is sometimes necessary to isolate the effects of a group of actions from the effects of actions outside the group. This may be indicated by setting the mustIsolate attribute to true on a structured activity node. If a structured activity node is "isolated," then any object used by an action within the node cannot be accessed by any action outside the node until the structured activity node as a whole completes. Any concurrent actions that would result in accessing such objects are required to have their execution deferred until the completion of the node.

    A constraint is a condition or restriction expressed in natural language text or in a machine readable language for the purpose of declaring some of the semantics of an element.

    An expansion region is a structured activity region that executes multiple times corresponding to elements of an input collection.

  • Extension (Extension)

    An extension is used to indicate that the properties of a metaclass are extended through a stereotype, and gives the ability to flexibly add (and later remove) stereotypes to classes.

  • Flow Final Node (Control Node)

    A control node is an abstract activity node that coordinates flows in an activity.

    A final node is an abstract control node at which a flow in an activity stops.

    A flow final node is a final node that terminates a flow.

  • Fork Node (Control Node)

    A control node is an abstract activity node that coordinates flows in an activity.

    A fork node is a control node that splits a flow into multiple concurrent flows.

  • Information Item (Information Item)

    An information item is an abstraction of all kinds of information that can be exchanged between objects. It is a kind of

    classifier intended for representing information in a very abstract way, one which cannot be instantiated.

  • Initial Node (Control Node)

    A control node is an abstract activity node that coordinates flows in an activity.

    An initial node is a control node at which flow starts when the activity is invoked.

  • Input Pin (Pin)

    A pin provides values to actions and accept result values from them. A pin is an object node for inputs and outputs to actions.

    An input pin is a pin that holds input values to be consumed by an action.

  • Interaction (Interaction)

    An interaction is a unit of behavior that focuses on the observable exchange of information between connectable elements.

  • Interface (Interface)

    An interface is a kind of classifier that represents a declaration of a set of coherent public features and obligations.

    An interface specifies a contract; any instance of a classifier that realizes the interface must fulfill that contract.

    The obligations that may be associated with an interface are in the form of various kinds of constraints (such as pre- and post-conditions) or protocol specifications, which may impose ordering restrictions on interactions through the interface.

    Interfaces may include receptions (in addition to operations). Since an interface specifies conformance characteristics, it does not own detailed behavior specifications. Instead, interfaces may own a protocol state machine that specifies event sequences and pre/post conditions for the operations and receptions described by the interface.

  • Join Node (Control Node)

    A control node is an abstract activity node that coordinates flows in an activity.

    A join node is a control node that synchronizes multiple flows. Join nodes have a Boolean value specification using the names of the incoming edges to specify the conditions under which the join will emit a token.

  • Loop Node (Action)

    A constraint is a condition or restriction expressed in natural language text or in a machine readable language for the purpose of declaring some of the semantics of an element.

    An action is a named element that is the fundamental unit of executable functionality.

    The execution of an action represents some transformation or processing in the modeled system, be it a computer system or otherwise.

    An action represents a single step within an activity, that is, one that is not further decomposed within the activity.

    An action has pre- and post-conditions.

    A structured activity node is an executable activity node that may have an expansion into subordinate nodes as an activity group. The subordinate nodes must belong to only one structured activity node, although they may be nested. Because of the concurrent nature of the execution of actions within and across activities, it can be difficult to guarantee the consistent access and modification of object memory. In order to avoid race conditions or other concurrency-related problems, it is sometimes necessary to isolate the effects of a group of actions from the effects of actions outside the group. This may be indicated by setting the mustIsolate attribute to true on a structured activity node. If a structured activity node is "isolated," then any object used by an action within the node cannot be accessed by any action outside the node until the structured activity node as a whole completes. Any concurrent actions that would result in accessing such objects are required to have their execution deferred until the completion of the node.

    A constraint is a condition or restriction expressed in natural language text or in a machine readable language for the purpose of declaring some of the semantics of an element.

    A loop node is a structured activity node that represents a loop with setup, test, and body sections.

  • Merge Node (Control Node)

    A control node is an abstract activity node that coordinates flows in an activity.

    A merge node is a control node that brings together multiple alternate flows. It is not used to synchronize concurrent flows but to accept one among several alternate flows.

  • Node (Node)

    A node is computational resource upon which artifacts may be deployed for execution. Nodes can be interconnected through communication paths to define network structures.

  • Object Flow (Object Flow)

    An object flow is an activity edge that can have objects or data passing along it. Object flows have support for multicast/receive, token selection from object nodes, and transformation of tokens.

  • Opaque Action (Action)

    A constraint is a condition or restriction expressed in natural language text or in a machine readable language for the purpose of declaring some of the semantics of an element.

    An action is a named element that is the fundamental unit of executable functionality.

    The execution of an action represents some transformation or processing in the modeled system, be it a computer system or otherwise.

    An action represents a single step within an activity, that is, one that is not further decomposed within the activity.

    An action has pre- and post-conditions.

    An opaque action is an action with implementation-specific semantics.

  • Opaque Behavior (Opaque Behavior)

    An behavior with implementation-specific semantics.

  • Operation (Operation)

    An operation is a behavioral feature 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.

  • Output Pin (Pin)

    A pin provides values to actions and accept result values from them. A pin is an object node for inputs and outputs to actions.

    An output pin is a pin that holds output values produced by an action.

  • Parameter (Parameter)

    A parameter is a specification of an argument used to pass information into or out of an invocation of a behavioral feature. Parameters are allowed to be treated as connectable elements. Parameters have support for streaming, exceptions, and parameter sets.

  • Port (Port)

    A port is a property of a classifier that specifies a distinct interaction point between that classifier and its environment or between the (behavior of the) classifier and its internal parts.

    Ports are connected to properties of the classifier by connectors through which requests can be made to invoke the behavioral features of a classifier.

    A Port may specify the services a classifier provides (offers) to its environment as well as the services that a classifier expects (requires) of its environment. A port has an associated protocol state machine.

  • Primitive Type (Primitive Type)

    A primitive type defines a predefined data type, without any relevant substructure (i.e., it has no parts in the context of UML). A primitive datatype may have an algebra and operations defined outside of UML, for example, mathematically.

  • Protocol (Protocol)

    Only available together with the Real-Time Extension of RSA.

  • Protocol State Machine (Protocol State Machine)

    A protocol state machine is always defined in the context of a classifier. It specifies which operations of the classifier can be called in which state and under which condition, thus specifying the allowed call sequences on the classifier's operations.

    A protocol state machine presents the possible and permitted transitions on the instances of its context classifier, together with the operations which carry the transitions. In this manner, an instance lifecycle can be created for a classifier, by specifying the order in which the operations can be activated and the states through which an instance progresses during its existence.

  • Raise Exception Action (Action)

    A constraint is a condition or restriction expressed in natural language text or in a machine readable language for the purpose of declaring some of the semantics of an element.

    An action is a named element that is the fundamental unit of executable functionality.

    The execution of an action represents some transformation or processing in the modeled system, be it a computer system or otherwise.

    An action represents a single step within an activity, that is, one that is not further decomposed within the activity.

    An action has pre- and post-conditions.

    A raise exception action is an action that causes an exception to occur. The input value becomes the exception object.

  • Read Extent Action (Action)

    A constraint is a condition or restriction expressed in natural language text or in a machine readable language for the purpose of declaring some of the semantics of an element.

    An action is a named element that is the fundamental unit of executable functionality.

    The execution of an action represents some transformation or processing in the modeled system, be it a computer system or otherwise.

    An action represents a single step within an activity, that is, one that is not further decomposed within the activity.

    An action has pre- and post-conditions.

    A read extent action is an action that retrieves the current instances of a classifier.

  • Read Is Classified Object Action (Action)

    A constraint is a condition or restriction expressed in natural language text or in a machine readable language for the purpose of declaring some of the semantics of an element.

    An action is a named element that is the fundamental unit of executable functionality.

    The execution of an action represents some transformation or processing in the modeled system, be it a computer system or otherwise.

    An action represents a single step within an activity, that is, one that is not further decomposed within the activity.

    An action has pre- and post-conditions.

    A read is classified object action is an action that determines whether a runtime object is classified by a given classifier.

  • Read Link Action (Action)

    An action is a named element that is the fundamental unit of executable functionality.

    The execution of an action represents some transformation or processing in the modeled system, be it a computer system or otherwise.

    An action represents a single step within an activity, that is, one that is not further decomposed within the activity.

    An action has pre- and post-conditions.

    A read link action is a link action that navigates across associations to retrieve objects on one end.

    A constraint is a condition or restriction expressed in natural language text or in a machine readable language for the purpose of declaring some of the semantics of an element.

    A read link action is a link action that navigates across associations to retrieve objects on one end.

  • Read Link Object End Action (Action)

    A constraint is a condition or restriction expressed in natural language text or in a machine readable language for the purpose of declaring some of the semantics of an element.

    An action is a named element that is the fundamental unit of executable functionality.

    The execution of an action represents some transformation or processing in the modeled system, be it a computer system or otherwise.

    An action represents a single step within an activity, that is, one that is not further decomposed within the activity.

    An action has pre- and post-conditions.

    A read link object end action is an action that retrieves an end object from a link object.

  • Read Link Object End Qualifier Action (Action)

    A constraint is a condition or restriction expressed in natural language text or in a machine readable language for the purpose of declaring some of the semantics of an element.

    An action is a named element that is the fundamental unit of executable functionality.

    The execution of an action represents some transformation or processing in the modeled system, be it a computer system or otherwise.

    An action represents a single step within an activity, that is, one that is not further decomposed within the activity.

    An action has pre- and post-conditions.

    A read link object end qualifier action is an action that retrieves a qualifier end value from a link object.

  • Read Self Action (Action)

    A constraint is a condition or restriction expressed in natural language text or in a machine readable language for the purpose of declaring some of the semantics of an element.

    An action is a named element that is the fundamental unit of executable functionality.

    The execution of an action represents some transformation or processing in the modeled system, be it a computer system or otherwise.

    An action represents a single step within an activity, that is, one that is not further decomposed within the activity.

    An action has pre- and post-conditions.

    A read self action is an action that retrieves the host object of an action.

    The following features are supported:

  • Read Structural Feature Action (Action)

    An action is a named element that is the fundamental unit of executable functionality.

    The execution of an action represents some transformation or processing in the modeled system, be it a computer system or otherwise.

    An action represents a single step within an activity, that is, one that is not further decomposed within the activity.

    An action has pre- and post-conditions.

    A read structural feature action is a structural feature action that retrieves the values of a structural feature.

    A constraint is a condition or restriction expressed in natural language text or in a machine readable language for the purpose of declaring some of the semantics of an element.

    A read structural feature action is a structural feature action that retrieves the values of a structural feature.

  • Read Variable Action (Action)

    A constraint is a condition or restriction expressed in natural language text or in a machine readable language for the purpose of declaring some of the semantics of an element.

    An action is a named element that is the fundamental unit of executable functionality.

    The execution of an action represents some transformation or processing in the modeled system, be it a computer system or otherwise.

    An action represents a single step within an activity, that is, one that is not further decomposed within the activity.

    An action has pre- and post-conditions.

    A remove variable value action is a write variable action that removes values from variables.

    A read variable action is a variable action that retrieves the values of a variable.

  • Reception (Reception)

    A reception is a declaration stating that a classifier is prepared to react to the receipt of a signal. A reception designates a signal and specifies the expected behavioral response.

    The details of handling a signal are specified by the behavior associated with the reception or the classifier itself.

  • Reclassify Object Action (Action)

    A constraint is a condition or restriction expressed in natural language text or in a machine readable language for the purpose of declaring some of the semantics of an element.

    An action is a named element that is the fundamental unit of executable functionality.

    The execution of an action represents some transformation or processing in the modeled system, be it a computer system or otherwise.

    An action represents a single step within an activity, that is, one that is not further decomposed within the activity.

    An action has pre- and post-conditions.

    A reclassify object action is an action that changes which classifiers classify an object.

  • Reduce Action (Action)

    A constraint is a condition or restriction expressed in natural language text or in a machine readable language for the purpose of declaring some of the semantics of an element.

    An action is a named element that is the fundamental unit of executable functionality.

    The execution of an action represents some transformation or processing in the modeled system, be it a computer system or otherwise.

    An action represents a single step within an activity, that is, one that is not further decomposed within the activity.

    An action has pre- and post-conditions.

    A reduce action is an action that reduces a collection to a single value by combining the elements of the collection.

  • Remove Structural Feature Value Action (Action)

    An action is a named element that is the fundamental unit of executable functionality.

    The execution of an action represents some transformation or processing in the modeled system, be it a computer system or otherwise.

    An action represents a single step within an activity, that is, one that is not further decomposed within the activity.

    An action has pre- and post-conditions.

    A read structural feature action is a structural feature action that retrieves the values of a structural feature.

    A read structural feature action is a structural feature action that retrieves the values of a structural feature.

    A constraint is a condition or restriction expressed in natural language text or in a machine readable language for the purpose of declaring some of the semantics of an element.

    A remove structural feature value action is a write structural feature action that removes values from structural features.

  • Remove Variable Value Action (Action)

    An action is a named element that is the fundamental unit of executable functionality.

    The execution of an action represents some transformation or processing in the modeled system, be it a computer system or otherwise.

    An action represents a single step within an activity, that is, one that is not further decomposed within the activity.

    An action has pre- and post-conditions.

    A remove variable value action is a write variable action that removes values from variables.

    WriteVariableAction is an abstract class for variable actions that change variable values.

    A constraint is a condition or restriction expressed in natural language text or in a machine readable language for the purpose of declaring some of the semantics of an element.

    A remove variable value action is a write variable action that removes values from variables.

  • Reply Action (Action)

    A constraint is a condition or restriction expressed in natural language text or in a machine readable language for the purpose of declaring some of the semantics of an element.

    An action is a named element that is the fundamental unit of executable functionality.

    The execution of an action represents some transformation or processing in the modeled system, be it a computer system or otherwise.

    An action represents a single step within an activity, that is, one that is not further decomposed within the activity.

    An action has pre- and post-conditions.

    A reply action is an action that accepts a set of return values and a value containing return information produced by a previous accept call action. The reply action returns the values to the caller of the previous call, completing execution of the call.

  • Send Object Action (Action)

    An action is a named element that is the fundamental unit of executable functionality.

    The execution of an action represents some transformation or processing in the modeled system, be it a computer system or otherwise.

    An action represents a single step within an activity, that is, one that is not further decomposed within the activity.

    An action has pre- and post-conditions.

    InvocationAction is an abstract class for the various actions that invoke behavior. In addition to targeting an object, invocation actions can also invoke behavioral features on ports from where the invocation requests are routed onwards on links deriving from attached connectors. Invocation actions may also be sent to a target via a given port, either on the sending object or on another object.

    A constraint is a condition or restriction expressed in natural language text or in a machine readable language for the purpose of declaring some of the semantics of an element.

    A send object action is an action that transmits an object to the target object, where it may invoke behavior such as the firing of state machine transitions or the execution of an activity. The value of the object is available to the execution of invoked behaviors. The requestor continues execution immediately. Any reply message is ignored and is not transmitted to the requestor.

  • Send Signal Action (Action)

    An action is a named element that is the fundamental unit of executable functionality.

    The execution of an action represents some transformation or processing in the modeled system, be it a computer system or otherwise.

    An action represents a single step within an activity, that is, one that is not further decomposed within the activity.

    An action has pre- and post-conditions.

    InvocationAction is an abstract class for the various actions that invoke behavior. In addition to targeting an object, invocation actions can also invoke behavioral features on ports from where the invocation requests are routed onwards on links deriving from attached connectors. Invocation actions may also be sent to a target via a given port, either on the sending object or on another object.

    A constraint is a condition or restriction expressed in natural language text or in a machine readable language for the purpose of declaring some of the semantics of an element.

    A send signal action is an action that creates a signal instance from its inputs, and transmits it to the target object, where it may cause the firing of a state machine transition or the execution of an activity. The argument values are available to the execution of associated behaviors. The requestor continues execution immediately. Any reply message is ignored and is not transmitted to the requestor. If the input is already a signal instance, use a send object action.

  • Sequence Node (Action)

    A constraint is a condition or restriction expressed in natural language text or in a machine readable language for the purpose of declaring some of the semantics of an element.

    An action is a named element that is the fundamental unit of executable functionality.

    The execution of an action represents some transformation or processing in the modeled system, be it a computer system or otherwise.

    An action represents a single step within an activity, that is, one that is not further decomposed within the activity.

    An action has pre- and post-conditions.

    A structured activity node is an executable activity node that may have an expansion into subordinate nodes as an activity group. The subordinate nodes must belong to only one structured activity node, although they may be nested. Because of the concurrent nature of the execution of actions within and across activities, it can be difficult to guarantee the consistent access and modification of object memory. In order to avoid race conditions or other concurrency-related problems, it is sometimes necessary to isolate the effects of a group of actions from the effects of actions outside the group. This may be indicated by setting the mustIsolate attribute to true on a structured activity node. If a structured activity node is "isolated," then any object used by an action within the node cannot be accessed by any action outside the node until the structured activity node as a whole completes. Any concurrent actions that would result in accessing such objects are required to have their execution deferred until the completion of the node.

    A constraint is a condition or restriction expressed in natural language text or in a machine readable language for the purpose of declaring some of the semantics of an element.

    A sequence node is a structured activity node that executes its actions in order.

  • Signal (Signal)

    A signal is a specification of send request instances communicated between objects. The receiving object handles the received request instances as specified by its receptions. The data carried by a send request (which was passed to it by the send invocation occurrence that caused that request) are represented as attributes of the signal.

    A signal is defined independently of the classifiers handling the signal occurrence.

  • Start Classifier Behavior Action (Action)

    A constraint is a condition or restriction expressed in natural language text or in a machine readable language for the purpose of declaring some of the semantics of an element.

    An action is a named element that is the fundamental unit of executable functionality.

    The execution of an action represents some transformation or processing in the modeled system, be it a computer system or otherwise.

    An action represents a single step within an activity, that is, one that is not further decomposed within the activity.

    An action has pre- and post-conditions.

    A start classifier behavior action is an action that starts the classifier behavior of the input.

  • Start Object Behavior Action (Action)

    A constraint is a condition or restriction expressed in natural language text or in a machine readable language for the purpose of declaring some of the semantics of an element.

    An action is a named element that is the fundamental unit of executable functionality.

    The execution of an action represents some transformation or processing in the modeled system, be it a computer system or otherwise.

    An action represents a single step within an activity, that is, one that is not further decomposed within the activity.

    An action has pre- and post-conditions.

    InvocationAction is an abstract class for the various actions that invoke behavior. In addition to targeting an object, invocation actions can also invoke behavioral features on ports from where the invocation requests are routed onwards on links deriving from attached connectors. Invocation actions may also be sent to a target via a given port, either on the sending object or on another object.

    CallAction is an abstract class for actions that invoke behavior and receive return values.

    StartObjectBehaviorAction is an action that starts the execution either of a directly instantiated behavior or of the classifier behavior of an object. Argument values may be supplied for the input parameters of the behavior. If the behavior is invoked synchronously, then output values may be obtained for output

  • State Machine (State Machine)

    State machines can be used to express the behavior of part of a system.

    Behavior is modeled as a traversal of a graph of state nodes interconnected by one or more joined transition arcs that are triggered by the dispatching of series of (event) occurrences. During this traversal, the state machine executes a series of activities associated with various elements of the state machine.

  • Stereotype (Stereotype)

    A stereotype defines how an existing metaclass may be extended, and enables the use of platform or domain specific terminology or notation in place of, or in addition to, the ones used for the extended metaclass.

  • Structured Activity Node (Action)

    A constraint is a condition or restriction expressed in natural language text or in a machine readable language for the purpose of declaring some of the semantics of an element.

    An action is a named element that is the fundamental unit of executable functionality.

    The execution of an action represents some transformation or processing in the modeled system, be it a computer system or otherwise.

    An action represents a single step within an activity, that is, one that is not further decomposed within the activity.

    An action has pre- and post-conditions.

    A structured activity node is an executable activity node that may have an expansion into subordinate nodes as an activity group. The subordinate nodes must belong to only one structured activity node, although they may be nested. Because of the concurrent nature of the execution of actions within and across activities, it can be difficult to guarantee the consistent access and modification of object memory. In order to avoid race conditions or other concurrency-related problems, it is sometimes necessary to isolate the effects of a group of actions from the effects of actions outside the group. This may be indicated by setting the mustIsolate attribute to true on a structured activity node. If a structured activity node is "isolated," then any object used by an action within the node cannot be accessed by any action outside the node until the structured activity node as a whole completes. Any concurrent actions that would result in accessing such objects are required to have their execution deferred until the completion of the node.

  • Structured Activity Node (Structured Activity Node)

    A structured activity node is an executable activity node that may have an expansion into subordinate nodes as an activity group. The subordinate nodes must belong to only one structured activity node, although they may be nested.

    Because of the concurrent nature of the execution of actions within and across activities, it can be difficult to guarantee the consistent access and modification of object memory.

    In order to avoid race conditions or other concurrency-related problems, it is sometimes necessary to isolate the effects of a group of actions from the effects of actions outside the group. This may be indicated by setting the mustIsolate attribute to true on a structured activity node.

    If a structured activity node is "isolated," then any object used by an action within the node cannot be accessed by any action outside the node until the structured activity node as a whole completes. Any concurrent actions that would result in accessing such objects are required to have their execution deferred until the completion of the node.

  • Template Signature (Template Signature)

    A template signature bundles the set of formal template parameters for a templated element.

  • Test Identity Action (Action)

    A constraint is a condition or restriction expressed in natural language text or in a machine readable language for the purpose of declaring some of the semantics of an element.

    An action is a named element that is the fundamental unit of executable functionality.

    The execution of an action represents some transformation or processing in the modeled system, be it a computer system or otherwise.

    An action represents a single step within an activity, that is, one that is not further decomposed within the activity.

    An action has pre- and post-conditions.

    A test identity action is an action that tests if two values are identical objects.

  • Trigger (Trigger)

    A trigger relates an event to a behavior that may affect an instance of the classifier. A trigger specification may be qualified by the port on which the event occurred.

  • Unmarshall Action (Action)

    A constraint is a condition or restriction expressed in natural language text or in a machine readable language for the purpose of declaring some of the semantics of an element.

    An action is a named element that is the fundamental unit of executable functionality.

    The execution of an action represents some transformation or processing in the modeled system, be it a computer system or otherwise.

    An action represents a single step within an activity, that is, one that is not further decomposed within the activity.

    An action has pre- and post-conditions.

    An unmarshall action is an action that breaks an object of a known type into outputs each of which is equal to a value from a structural feature of the object.

  • Use Case (Use Case)

    A use case is the specification of a set of actions performed by a system, which yields an observable result that is, typically, of value for one or more actors or other stakeholders of the system.

  • Value Pin (Pin)

    A pin provides values to actions and accept result values from them. A pin is an object node for inputs and outputs to actions.

    An input pin is a pin that holds input values to be consumed by an action.

    A value pin is an input pin that provides a value by evaluating a value specification.

  • Value Specification Action (Action)

    A constraint is a condition or restriction expressed in natural language text or in a machine readable language for the purpose of declaring some of the semantics of an element.

    An action is a named element that is the fundamental unit of executable functionality.

    The execution of an action represents some transformation or processing in the modeled system, be it a computer system or otherwise.

    An action represents a single step within an activity, that is, one that is not further decomposed within the activity.

    An action has pre- and post-conditions.

    A value specification action is an action that evaluates a value specification.

Rules

• Arbitrary number of elements of the following kinds:
  • Activity Diagram (Activity Diagram)

    An Activity Diagram is a diagram that shows the decomposition of an activity into actions and the control and dataflow between these behavorial elements.

  • Class Diagram (Class Diagram)

    A Class Diagram is a diagram that shows classes and interfaces and their relationships. However a class diagram may also show packages and all kind of classifier elements.

  • Component Diagram (Component Diagram)

    A Component Diagram is a diagram that shows components, interfaces and artifacts and their relationships. However a component diagram may also show packages and all kind of classifier elements.

  • Deployment Diagram (Deployment Diagram)

    A Deployment Diagram is a diagram that shows nodes and artifacts and their relationships. However a deployment diagram may also show packages and all kind of classifier elements.

  • Freeform Diagram (Freeform Diagram)

    A Free Form diagram is a diagram in which you can make free drawings without the restriction of using UML.

  • Interaction Overview Diagram (Interaction Overview Diagram)

    An Interaction Overview Diagram is a visual representation of a control flow of interaction..

  • Object Diagram (Object Diagram)

    An Object Diagram is a diagram that shows instance specification, links and slots.

  • Structure Diagram (Structure Diagram)

    A Structure Diagram is a diagram that shows the static structure of an element.

  • Use Case Diagram (Use Case Diagram)

    A Use-Case Diagram is a diagram that shows actors and use cases and their relationships. However a Use-Case Diagram may also show packages and all kind of classifier elements.

Rules

• Arbitrary number of elements of the following kinds:
  • Abstraction (Abstraction)

    An abstraction is a relationship that relates two elements or sets of elements that represent the same concept at different levels of abstraction or from different viewpoints.

  • Component Realization (Component Realization)

    The realization concept is specialized to (optionally) define the classifiers that realize the contract offered by a component in terms of its provided and required interfaces.

    The component forms an abstraction from these various

    classifiers.

  • Dependency (Dependency)

    A dependency is a relationship that signifies that a single or a set of model elements requires other model elements for their specification or implementation.

    This means that the complete semantics of the depending elements is either semantically or structurally dependent on the definition of the supplier element(s).

  • Element Import (Element Import)

    An element import identifies an element in another package, and allows the element to be referenced using its name without a qualifier.

  • Generalization (Generalization)

    A generalization is a taxonomic relationship between a more general classifier and a more specific classifier. Each instance of the specific classifier is also an indirect instance of the general classifier. Thus, the specific classifier inherits the features of the more general classifier.

    A generalization relates a specific classifier to a more general classifier, and is owned by the specific classifier.

  • Information Flow (Information Flow)

    An information flow specifies that one or more information items circulates from its sources to its targets.

    Informationflows require some kind of information channel for transmitting information items from the source to the destination. An information channel is represented in various ways depending on the nature of its sources and targets. It may berepresented by connectors, links, associations, or even dependencies.

    For example, if the source and destination are partsin some composite structure such as a collaboration, then the information channel is likely to be represented by aconnector between them. Or, if the source and target are objects (which are a kind of instance specification), they may berepresented by a link that joins the two, and so on.

  • Interface Realization (Interface Realization)

    An interface realization is a specialized realization relationship between a classifier and an interface. This relationship signifies that the realizing classifier conforms to the contract specified by the interface.

  • Package Import (Package Import)

    A package import is a relationship that allows the use of unqualified names to refer to package members from other namespaces.

  • Realization (Realization)

    Realization is a specialized abstraction relationship between two sets of model elements, one representing a specification (the supplier) and the other represents an implementation of the latter (the client). Realization can be used to model stepwise refinement, optimizations, transformations, templates, model synthesis, framework composition, etc.

  • Substitution (Substitution)

    A substitution is a relationship between two classifiers signifies that the substituting classifier complies with the contract specified by the contract classifier. This implies that instances of the substituting classifier are runtime substitutable where instances of the contract classifier are expected.

  • Templatebinding (Templatebinding)

    A template binding represents a relationship between a templateable element and a template. A template binding specifies the substitutions of actual parameters for the formal parameters of the template.

  • Usage (Usage)

    A usage is a relationship in which one element requires another element (or set of elements) for its full implementation or operation. A usage is a dependency in which the client requires the presence of the supplier.

• Can be the value of the Type property of elements of the following kinds:
  • Action Input Pin (Pin)
  • Activity Parameter Node (Object Node)
  • Association End (Association End)
  • Attribute (Attribute)
  • Central Buffer (Object Node)
  • Data Store Node (Object Node)
  • Expansion Node (Object Node)
  • Input Pin (Pin)
  • Output Pin (Pin)
  • Parameter (Parameter)
  • Port (Port)
  • Value Pin (Pin)
• Can be the value of the Behavior property of Call Behavior Action (Action)
• Can be the Target of elements of the following kinds:
  • Abstraction (Abstraction)
  • Component Realization (Component Realization)
  • Dependency (Dependency)
  • Element Import (Element Import)
  • Generalization (Generalization)
  • Information Flow (Information Flow)
  • Manifestation (Manifestation)
  • Realization (Realization)
  • Substitution (Substitution)
  • Usage (Usage)
• Can be the value of the Selection property of elements of the following kinds:
  • Action Input Pin (Pin)
  • Activity Parameter Node (Object Node)
  • Central Buffer (Object Node)
  • Data Store Node (Object Node)
  • Expansion Node (Object Node)
  • Input Pin (Pin)
  • Object Flow (Object Flow)
  • Output Pin (Pin)
  • Value Pin (Pin)
• Can be the value of the Transformation property of Object Flow (Object Flow)