I am deciding if I should use a Rich Domain Model over an Anemic Domain Model, and looking for good examples of the two.

I have been building web applications using an Anemic Domain Model, backed by a Service --> Repository --> Storage layer system, using FluentValidation for BL validation, and putting all of my BL in the Service layer.

I have read Eric Evan's DDD book, and he (along with Fowler and others) seem to think Anemic Domain Models are an anti-pattern.

So I was just really wanting to get some insight into this problem.

Also I am really looking for some good (basic) examples of a Rich Domain Model, and the benefits over the Anemic Domain Model it provides.

Bozhidar Bozhanov seems to argue in favor of the anemic model in this blog post.

Here is the summary he presents:

  • domain objects should not be spring (IoC) managed, they should not have DAOs or anything related to infrastructure injected in them

  • domain objects have the domain objects they depend on set by hibernate (or the persistence mechanism)

  • domain objects perform the business logic, as the core idea of DDD is, but this does not include database queries or CRUD – only operations on the internal state of the object

  • there is rarely need of DTOs – the domain objects are the DTOs themselves in most cases (which saves some boilerplate code)

  • services perform CRUD operations, send emails, coordinate the domain objects, generate reports based on multiple domain objects, execute queries, etc.

  • the service (application) layer isn’t that thin, but doesn’t include business rules that are intrinsic to the domain objects

  • code generation should be avoided. Abstraction, design patterns and DI should be used to overcome the need of code generation, and ultimately – to get rid of code duplication.

UPDATE

I recently read this article where the author advocates of following a sort of hybrid approach - domain objects can answer various questions based solely on their state (which in the case of totally anemic models would probably be done in the service layer)

  • 6
    I can't extract from that article that Bozho seems to argue in favor of the anemic domain model. the service (application) layer isn’t that thin, but doesn’t include business rules that are intrinsic to the domain objects. What I understand is, domain objects should contain the business logic that are intrinsic to them, but they should not contain any other infrastructure logic. This approach does not seem like an anemic domain model to me at all. – Utku Jun 19 '17 at 13:04
  • 5
    Also this one: domain objects perform the business logic, as the core idea of DDD is, but this does not include database queries or CRUD – only operations on the internal state of the object. These statements do not seem like to favor the anemic domain model at all. They only state that infrastructure logic should not be coupled to domain objects. At least that is what I understand. – Utku Jun 19 '17 at 13:10
  • @Utku In my view it seems fairly clear that Bozho advocates a sort of hybrid between the two models, a hybrid which I would say is closer to the anemic model than the rich model. – geoand Jun 19 '17 at 15:53

The difference is that an anemic model separates logic from data. The logic is often placed in classes named **Service, **Util, **Manager, **Helper and so on. These classes implement the data interpretation logic and therefore take the data model as an argument. E.g.

public BigDecimal calculateTotal(Order order){
...
}

while the rich domain approach inverses this by placing the data interpretation logic into the rich domain model. Thus it puts logic and data together and a rich domain model would look like this:

order.getTotal();

This has a big impact on object consistency. Since the data interpretation logic wraps the data (data can only be accessed through object methods) the methods can react to state changes of other data -> This is what we call behavior.

In an anemic model the data models can not guarantee that they are in a legal state while in a rich domain model they can. A rich domain model applies OO principles like encapsulation, information hiding and bringing data and logic together and therefore a anemic model is an anti pattern from an OO perspective.

For a deeper insight take a look at my blog https://www.link-intersystems.com/blog/2011/10/01/anemic-vs-rich-domain-models/

  • 9
    Let's say calculating an order's total price involves: 1) Applying a discount which depends on the customer being member of one of possible many loyalty programs. 2) Applying a discount for orders that contain a specific group of items together depending on the current marketing campaign run by the store. 3) Calculating tax where amount of tax depends on each specific item of the order. In your opinion, where would all this logic belong? Could you please give a simple pseudo-code example. Thank you! – Nik Nov 25 '16 at 13:26
  • @RenéLink With the anemic approach would you place the Service/Manager classes inside of the same Domain class library or in a separate class library. Additionally, should the Service/Managers ever make calls to the repository or be passed in everything they need with prior calls to the repository? – Blake Rivell Apr 19 '17 at 15:25
  • @RenéLink I figure there might be some advantages if a WebAPI or MVC app first calls var order = _orderRepository.GetOrderById(id), then _orderManager.GetTotal(order). This way before processing the business logic a Not Found exception can be thrown if GetOrderById returns null. – Blake Rivell Apr 19 '17 at 15:31
  • Don't Service layers abstract from the actual models, the classes, decoupling? That is a layer between the actual model and the consumer, like a ViewModel? – johnny Jul 14 '17 at 1:47
  • 3
    @Nik In the rich model, the Order would have a reference to the Customer object, and the Customer object would have reference to the Loyalty Program. Thus, the Order would have access to all of the information it needed without needing explicit references to things like services and repositories from which to fetch that information. However, it does seem easy to run into a case where cyclical references are happening. I.e. Order references Customer, Customer has a list of all Orders.I think this may have be partially why people prefer Anemic now. – crush Oct 25 '17 at 14:05

My point of view is this:

Anemic domain model = database tables mapped to objects (only field values, no real behavior)

Rich domain model = a collection of objects that expose behavior

If you want to create a simple CRUD application, maybe an anemic model with a classic MVC framework is enough. But if you want to implement some kind of logic, anemic model means that you will not do object oriented programming.

*Note that object behavior has nothing to do with persistence. A different layer (Data Mappers, Repositories e.t.c.) is responsible for persisting domain objects.

  • 2
    Sorry for my ignorance, but how does a rich domain model can follow SOLID principe if you put all the Entity related logic in the class. This violates SOLID principe, The 'S' exactly, that stands for single responsability, that says a class should only do one thing and do it right. – redigaffi Oct 13 '17 at 18:33
  • 1
    @redigaffi It depends on how you define "one thing". Consider a class with two properties and two methods: x, y, sum and difference. That's four things. Or you could argue it's addition and subtraction (two things). Or you could argue that it's math (one thing). There are many blog posts out there about how you find a balance in applying SRP. Here's one: hackernoon.com/… – Rainbolt Jan 7 at 7:35

First of all, I copy pasted the answer from this article http://msdn.microsoft.com/en-gb/magazine/dn385704.aspx

Figure 1 shows an Anemic Domain Model, which is basically a schema with getters and setters.

Figure 1 Typical Anemic Domain Model Classes Look Like Database Tables

public class Customer : Person
{
  public Customer()
  {
    Orders = new List<Order>();
  }
  public ICollection<Order> Orders { get; set; }
  public string SalesPersonId { get; set; }
  public ShippingAddress ShippingAddress { get; set; }
}
public abstract class Person
{
  public int Id { get; set; }
  public string Title { get; set; }
  public string FirstName { get; set; }
  public string LastName { get; set; }
  public string CompanyName { get; set; }
  public string EmailAddress { get; set; }
  public string Phone { get; set; }
}

In this richer model, rather than simply exposing properties to be read and written to, the public surface of Customer is made up of explicit methods.

Figure 2 A Customer Type That’s a Rich Domain Model, Not Simply Properties

public class Customer : Contact
{
  public Customer(string firstName, string lastName, string email)
  {
    FullName = new FullName(firstName, lastName);
    EmailAddress = email;
    Status = CustomerStatus.Silver;
  }
  internal Customer()
  {
  }
  public void UseBillingAddressForShippingAddress()
  {
    ShippingAddress = new Address(
      BillingAddress.Street1, BillingAddress.Street2,
      BillingAddress.City, BillingAddress.Region,
      BillingAddress.Country, BillingAddress.PostalCode);
  }
  public void CreateNewShippingAddress(string street1, string street2,
   string city, string region, string country, string postalCode)
  {
    ShippingAddress = new Address(
      street1,street2,
      city,region,
      country,postalCode)
  }
  public void CreateBillingInformation(string street1,string street2,
   string city,string region,string country, string postalCode,
   string creditcardNumber, string bankName)
  {
    BillingAddress = new Address      (street1,street2, city,region,country,postalCode );
    CreditCard = new CustomerCreditCard (bankName, creditcardNumber );
  }
  public void SetCustomerContactDetails
   (string email, string phone, string companyName)
  {
    EmailAddress = email;
    Phone = phone;
    CompanyName = companyName;
  }
  public string SalesPersonId { get; private set; }
  public CustomerStatus Status { get; private set; }
  public Address ShippingAddress { get; private set; }
  public Address BillingAddress { get; private set; }
  public CustomerCreditCard CreditCard { get; private set; }
}
  • 2
    There is a problem with methods that both create an object and assign a property with newly created object. They make code less extensible and flexible. 1) What if code consumer wants to create not Address, but ExtendedAddress, inherited from Address, with several additional properties? 2) Or change CustomerCreditCard constructor parameters to take BankID instead of BankName? – Lightman Oct 13 '15 at 10:42
  • What is creating an address requires additional services than what composes the object? You are left with method injection to get those services. What if it's a lot of services? – crush Oct 25 '17 at 14:35

One of the benefit of rich domain classes is you can call their behaviour (methods) everytime you have the reference to the object in any layer. Also, you tend to write small and distributed methods that collaborate together. In anemic domain classes, you tend to write fat procedural methods (in service layer) that are usually driven by use case. They are usually less maintainable compared to rich domain classes.

An example of domain classes with behaviours:

class Order {

     String number

     List<OrderItem> items

     ItemList bonus

     Delivery delivery

     void addItem(Item item) { // add bonus if necessary }

     ItemList needToDeliver() { // items + bonus }

     void deliver() {
         delivery = new Delivery()
         delivery.items = needToDeliver()
     }

}

Method needToDeliver() will return list of items that need to be delivered including bonus. It can be called inside the class, from another related class, or from another layer. For example, if you pass Order to view, then you can use needToDeliver() of selected Order to display list of items to be confirmed by user before they click on save button to persist the Order.

Responding To Comment

This is how I use the domain class from controller:

def save = {
   Order order = new Order()
   order.addItem(new Item())
   order.addItem(new Item())
   repository.create(order)
}

The creation of Order and its LineItem is in one transaction. If one of the LineItem can't be created, no Order will be created.

I tend to have method that represent a single transaction, such as:

def deliver = {
   Order order = repository.findOrderByNumber('ORDER-1')
   order.deliver()       
   // save order if necessary
}

Anything inside deliver() will be executed as one single transaction. If I need to execute many unrelated methods in a single transaction, I would create a service class.

To avoid lazy loading exception, I use JPA 2.1 named entity graph. For example, in controller for delivery screen, I can create method to load delivery attribute and ignore bonus, such as repository.findOrderByNumberFetchDelivery(). In bonus screen, I call another method that load bonus attribute and ignore delivery, such as repository.findOrderByNumberFetchBonus(). This requires dicipline since I still can't call deliver() inside bonus screen.

  • 1
    How about transaction scope? – kboom Jul 28 '14 at 20:15
  • 3
    Domain model behaviors shouldn't contains persistence logic (including transaction). They should be testable (in unit test) without connected to database. Transaction scope is the responsibility of service layer or persistence layer. – jocki Jul 29 '14 at 7:56
  • 1
    How about lazy-loading then? – kboom Jul 29 '14 at 8:08
  • When you create domain classes instances in unit test, they're not in managed state because they're plain objects. All behaviors can be tested properly. – jocki Jul 29 '14 at 8:29
  • And what happens when you're expecting the domain object from the service layer? Isn't it managed then? – kboom Jul 29 '14 at 8:40

Here is a example that might help:

Anemic

class Box
{
    public int Height { get; set; }
    public int Width { get; set; }
}

Non-anemic

class Box
{
    public int Height { get; private set; }
    public int Width { get; private set; }

    public Box(int height, int width)
    {
        if (height <= 0) {
            throw new ArgumentOutOfRangeException(nameof(height));
        }
        if (width <= 0) {
            throw new ArgumentOutOfRangeException(nameof(width));
        }
        Height = height;
        Width = width;
    }

    public int area()
    {
       return Height * Width;
    }
}

Anemic domain models are important for ORM and easy transfer over networks (the life-blood of all comercial applications) but OO is very important for encapsulation and simplifying the 'transactional/handling' parts of your code.

Therefore what is important is being able to identify and convert from one world to the other.

Name Anemic models something like AnemicUser, or UserDAO etc so developers know there is a better class to use, then have an appropriate constructor for the none Anemic class

User(AnemicUser au)

and adapter method to create the anemic class for transporting/persistence

User::ToAnemicUser() 

Aim to use the none Anemic User everywhere outside of transport/persistence

When I used to write monolithic desktop apps I built rich domain models, used to enjoy building them.

Now I write tiny HTTP microservices, there's as little code as possible, including anemic DTOs.

I think DDD and this anemic argument date from the monolithic desktop or server app era. I remember that era and I would agree that anemic models are odd. I built a big monolithic FX trading app and there was no model, really, it was horrible.

With microservices, the small services with their rich behaviour, are arguably the composable models and aggregates within a domain. So the microservice implementations themselves may not require further DDD. The microservice application may be the domain.

An orders microservice may have very few functions, expressed as RESTful resources or via SOAP or whatever. The orders microservice code may be extremely simple.

A larger more monolithic single (micro)service, especially one that keeps it model in RAM, may benefit from DDD.

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