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I am building an application that requires a number of subclasses (of Person) with similar properties (ex: Student, Teacher, Contact, User). There will be considerable overlap in properties, but also many differences. For example, a Person could be a Student, Contact and User. Here is an example (limited for clarity):


Student <- Person

Contact <- Person

User <- Person

I would like to avoid writing code multiple times - ex: email validation code, the code required to calculate Age, etc. Also, we will probably have to add additional classes later with similar overlapp and differences.

What is considered good design for handling this, or what design pattern(s), if any, cover this?

From my basic understanding of design patterns, Decorator does not seem right b/c I am not adding behavior. Composite does not seem right b/c it is not recursive. I also understand that there may not be an ideal pattern for this, however, it seems like a very common requirement.

If it matters, this will mainly be used in ASP.NET/C#/VB.NET.

Other SO questions have answers for two similar classes/objects (generally subclassing) but I could not find anything for an arbitrary number of similar classes.

Any suggestions regarding the associated database design are also welcome.

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I can't seem to accept two answers as correct, but my final solution will incoroporate the composition suggestion from Paul Sonier to handle storing the data and validating the data itself, and the interface and role suggestions from @Don Robby to handle the overlapping properties (implements multiple interfaces) and the logic (roles to verify that an IContact has at least one contact method specified). –  Jens Ehrich Jul 20 '11 at 12:32

4 Answers 4

up vote 4 down vote accepted

You want to use Composition to combine the functionality of multiple differing classes. What you're really looking for is how to design your object hierarchy such that you can define varying levels of functionality based upon your needs. The best and simplest way to do this is to use Composition to be able to define functionality.

For example, in your example, a Person does not need to have an email address; however, a Contact does, and a User does; they both inherit from Person. The way to handle this is to have an Email class, which then your Contact and User classes can have; that class can manage the validation, etc. If you really wish to have your Email attached to a Person, you can have a PersonWithEmail class (choose a better name, please!) which inherits from Person, and which composes the inherited Person with the Email class; that way, any class which inherits from PersonWithEmail will gain the Person functionality and the Email functionality. The issues with this type of approach, however, are that you're defining your composition directly in your inheritance hierarchy; this may not be desired. The direct Composition approach is simpler.

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Thanks Paul! What do you mean by "direct Composition approach" - are you referring to making the property types classes themselves? If so, that's what I'm doing with email, address, phone, and some others. What I can't seem to figure out is how to have different rules (ex: a contact must have one of phone, address, email, but a Student must have email AND phone). Any hints? –  Jens Ehrich Jul 11 '11 at 19:09

You could have storage in the Person class for all the different properties, and have subclasses for the different types of persons where the properties are reachable. That way the Phone property for a student and a contact could have the same storage.

You can have flags for the subtypes, and properties to get a person as the subtype.


public class Person {

  public string FirstName { get; set; }
  public string LastName { get; set; }
  public string DOB { get; set; }
  public int CurrentAge { get; set; }

  private string _studentId;
  private double _average;
  private string _email;
  private string _phone;

  public bool IsStudent { get; private set; }

  public Student AsStudent {
    get {
      if (IsStudent) {
        return this as Student;
      } else {
        throw new Exception("This Person is not Student.");


public class Student : Person {
  public string StudentId { get { return _studentId; } set { _studentId = value; } }
  public double Average { get { return _average; } set { _average = value; } }
  public string Email { get { return _email; } set { _email = value; } }
  public string Phone { get { return _phone; } set { _phone = value; } }


Person someone = GetStudentSomehow(...);
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Thanks Guffa. I like this, however, wouldn't I have to change my Person interface (i.e. add IsTeacher, AsTeacher) every time I add a new similar class? –  Jens Ehrich Jul 11 '11 at 18:55
@Jens Ehrich: Yes. You could of course put the access in the subclasses, but then it would be somewhat more cumbersome to use, i.e. Teacher.PersonIsTeacher(someone). Besides, you would still need to add storage in the Person class for any additional properties. –  Guffa Jul 11 '11 at 19:08

I would argue against using subclassing for this at all, for two reasons:

  • A person can sensibly be a student, a contact and a user simultaneously.
  • A person can be a student now and a teacher next year (and for grad students, both at once...)

Put the things that actually identify a person in a Person class. Separate everything that has to do with a role that person is playing into a separate class or interface, possibly Role, and create subclasses or implementations of that.

Allow a person to have multiple roles by putting a field in your Person class that is a Set containing Role objects.

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Thanks Don. Can you give an example of how this would work with overlapping properties like Email? I would want to store only one email address even if the person had many roles that require Email. –  Jens Ehrich Jul 13 '11 at 3:03

Use subclassing in case if you can say that classes are follow relation Tiger "is an" Animal, otherwise it could be a mess maintaining such a large hierarchy of classes adding a new behaviour.

Also, do not forget to make a base class as abstract, it prevent incorrect usage of classes in feature when someone intended to use base class as instance, base class should be designed to be a base, and thats it.

For some kind of properties iI would propose to use such an approach instead of base classes which share the same properties for different kind of entities, so encapsulate such properties by an interface and just implement for entities which are aware of contact information details:

public interface IContactDetails
    string Email { get; }
    string Address { get; }
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