Role Class Model

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In computer science, the role class model is a role analysis pattern[1] described by Francis G. Mossé in his article on Modelling Roles[2]. The role class pattern provides the ability for a class to play multiple roles and to embed the role characteristic in a dedicated class.

In our society, as we built it, roles are everywhere. Anyone trying to work in a team to create something has a role. In cinematography, many different persons take part in the creation of a film: the film director, the producer, actors, play writer(s), etc. Even our State organisations are based on various roles. In a Republic, you have a President, Ministers, Deputies, etc.

Dealing with these situations is one of the problems encountered most during object-oriented analysis. Francis G. Mossé has identified 5 role analysis patterns that can be used to solve most role related problems: Role Inheritance, Association Roles, Role Classes, Generalised Role Classes and Association Class Roles. They all have various degrees of constraints, flexibility or power, which together offer a complete solution to most role-related problems.

This article describes the topic Role Classes.

Contents

[edit] Name

Role Class Model

[edit] Intent

A model that allows a class to play one or more role at the same time. A role - as defined by Francis Mossé in Modelling Roles[2] - is a concept of a purpose that a class could have in a certain context.

[edit] Context

The following example is given:

Many persons work on a film, each of them with a different role. At the difference of other concepts, a person is not restricted to one role. One could be both the director and a character of a film. Modelling roles for such a concept would require that a class could play more than a single role.

A solution using inheritance to conceptualise a role - cf. the Inheritance Role Model - is not possible, as this would allow a person to play only a single role. As one can see in Figure 1 below, the inheritance role model says that a character, who is a person, is playing in a film. But there is no way to say that the person playing the character is also the director. Because, the inheritance makes it that a character is a person in general, not a particular person.

Figure 1: The Inheritance Role Model used in the context of a Film (using UML meta model representation)
Figure 1: The Inheritance Role Model used in the context of a Film (using UML meta model representation)

[edit] Problem

As explained in Context, using inheritance to play more than one role cannot be considered, because a class could not play two roles at the same time in such a context (cf. the Inheritance Role Model).

The expectation is to have a model where a class could be seen as more than one concept or role, and where attributes specific to one of those concepts can be specified.

[edit] Solution

A solution to the previous problem could be to use the Association Role Model, which could create an association between a person and a film. However, specific information on each role could not be stored in such a case. The role class model provides the flexibility of the association with role-specific attributes and even class operations, if needed.

Figure 2: Role class meta model (using UML meta model representation)
Figure 2: Role class meta model (using UML meta model representation)

This meta model - in Figure 2 - shows the role class like an element linking the Client and the BaseClass. For the Client interacting with the Role is like interacting with the Base Class itself, but from the perspective it is expecting. The advantage having the role as a class is that attributes can be bound to it.

[edit] Real world example

[edit] Cinema

Figure 3: Application of the role class model to the 7th Art (overview)
Figure 3: Application of the role class model to the 7th Art (overview)

A simple application of the role class model in a real example is in the 7th art (see Figure 3), the cinematography. This art involves a creation (the Film) and people to create it. Each person has a different role in the film, they could be actors and play characters, they could be director or scenarist, etc. A person is not limited to one role in a film, they can be both actors and directors and even more. For example, the film Scoop (2006) has been directed by Woody Allen, he is also the scenarist and he plays the role of Sid Waterman.

Figure 4: The 7th Art in more details (using UML Class Diagram representation). Click to enlarge.
Figure 4: The 7th Art in more details (using UML Class Diagram representation). Click to enlarge.

In Figure 4, one can see in more detail the role that each person can play in a film. From the film, it is possible to ask the list of crews and cast that help elaborated it. Each person has one or more roles (e.g. actor, director, producer, cameraman, etc.) in the film and can participate in more than one film. A person could even be an actor in a film and a producer in another. One advantage of using a role class in the case of the actor role is that the character qualities can be stored within the role. This is true for the actor role, this is also true for other roles, however maybe not all.

Only a few of the possible role have been modelled in Figure 4. One remark easily visible is that not all the role needs attributes and using the role class model for all of them is unnecessary (like for the Director role). In addition, there is a lot of redundancy between each role class. Redundancy in computer science means more work in maintenance, which is not wished.

[edit] Strengths and weaknesses

The employment of this model depends on the business process. The analysis pattern “Role Class Model” offers a possibility to employ a model with linking between a base class and the client. In addition inheritance is not a part of the solution because of the flexibility of zero or multiple roles (=> role-specific attributes and operations). Strength implies also its counter part's weakness. The problem of the role class model is the redundancy, for example the method getName is visible in all of the role classes described in Figure 4. If this is considered inconvenient, the role class generalisation model as defined in Modelling Roles[2] is a possible way to go.

[edit] See also

Francis G. Mossé[2] has described other solutions to the role problem.

  • Role Inheritance
  • Association Roles
  • Generalised Role Classes
  • Association Class Roles
  • Association Class Roles with role type, which is a refinement of the previous.

[edit] References

  1. ^ Fowler, Martin (1997-07-20). Dealing with Roles (PDF). Analysis Pattern. Retrieved on 2007-01-16.
  2. ^ a b c d Francis G. Mossé (September 2002). Modeling Roles - A Practical Series of Analysis Patterns pp. 27-37. Journal of Object Technology, vol. 1, no. 4. Retrieved on 2006-12-28.

[edit] Further reading

[edit] Related links