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After much reading and thinking as I begin to get my head wrapped around DDD, I am a bit confused about the best practices for dealing with complex hierarchies under an aggregate root. I think this is a FAQ but after reading countless examples and discussions, no one is quite talking about the issue I'm seeing.

If I am aligned with the DDD thinking, entities below the aggregate root should be immutable. This is the crux of my trouble, so if that isn't correct, that is why I'm lost.

Here is a fabricated example...hope it holds enough water to discuss.

Consider an automobile insurance policy (I'm not in insurance, but this matches the language I hear when on the phone w/ my insurance company).

Policy is clearly an entity. Within the policy, let's say we have Auto. Auto, for the sake of this example, only exists within a policy (maybe you could transfer an Auto to another policy, so this is potential for an aggregate as well, which changes Policy...but assume it simpler than that for now). Since an Auto cannot exist without a Policy, I think it should be an Entity but not a root. So Policy in this case is an aggregate root.

Now, to create a Policy, let's assume it has to have at least one auto. This is where I get frustrated. Assume Auto is fairly complex, including many fields and maybe a child for where it is garaged (a Location). If I understand correctly, a "create Policy" constructor/factory would have to take as input an Auto or be restricted via a builder to not be created without this Auto. And the Auto's creation, since it is an entity, can't be done beforehand (because it is immutable? maybe this is just an incorrect interpretation). So you don't get to say new Auto and then setX, setY, add(Z).

If Auto is more than somewhat trivial, you end up having to build a huge hierarchy of builders and such to try to manage creating an Auto within the context of the Policy.

One more twist to this is later, after the Policy is created and one wishes to add another Auto...or update an existing Auto. Clearly, the Policy controls this...fine...but Policy.addAuto() won't quite fly because one can't just pass in a new Auto (right!?). Examples say things like Policy.addAuto(VIN, make, model, etc.) but are all so simple that that looks reasonable. But if this factory method approach falls apart with too many parameters (the entire Auto interface, conceivably) I need a solution.

From that point in my thinking, I'm realizing that having a transient reference to an entity is OK. So, maybe it is fine to have a entity created outside of its parent within the aggregate in a transient environment, so maybe it is OK to say something like:

auto = AutoFactory.createAuto(); auto.setX auto.setY

or if sticking to immutability, AutoBuilder.new().setX().setY().build()

and then have it get sorted out when you say Policy.addAuto(auto)

This insurance example gets more interesting if you add Events, such as an Accident with its PolicyReports or RepairEstimates...some value objects but most entities that are all really meaningless outside the policy...at least for my simple example.

The lifecycle of Policy with its growing hierarchy over time seems the fundamental picture I must draw before really starting to dig in...and it is more the factory concept or how the child entities get built/attached to an aggregate root that I haven't seen a solid example of.

I think I'm close. Hope this is clear and not just a repeat FAQ that has answers all over the place.

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1  
christian, i think the main question for aggregates is bounded consistency, or transactional consistency i would say as well. Ask this question. What's the REAL minimum information you need to create policy? Just the creation. All you probably need is very little to make it "valid". Then later, you ASSIGN, an auto to it, (policies don't build AUTOS). Got it? I work for an insurance company. I wouldn't worry to much about policy. It first starts with a quote, and before that a lead. So, all you have to do is to "bind" all that info to a policy by inferring identity from your gathered data. –  Tony Dec 17 '12 at 18:16

3 Answers 3

entities below the aggregate root should be immutable.

No. Value objects are supposed to be immutable. Entities can change their state.

Just need to make sure You do proper encapsulation:

  • entities modifies themselves
  • entities are modified through aggregate root only

but Policy.addAuto() won't quite fly because one can't just pass in a new Auto (right!?)

Usually it's supposed to be so. Problem is that auto creation task might become way too large. If You are lucky and, knowing that entities can be modified, are able to divide smoothly it into smaller tasks like SpecifyEngine, problem is resolved.


However, "real world" does not work that way and I feel Your pain.

I got case when user uploads 18 excel sheets long crap load of data (with additional fancy rule - it should be "imported" whatever how invalid data are (as I say - that's like saying true==false)). This upload process is considered as one atomic operation.

What I do in this case...

First of all - I have excel document object model, mappings (e.g. Customer.Name==1st sheet, "C24") and readers that fill DOM. Those things live in infrastructure far far away.

Next thing - entity and value objects in my domain that looks similar to DOM dto`s, but only projection that I'm interested in, with proper data types and according validation. + I Have 1:1 association in my domain model that isolates dirty mess out (luckily enough, it kind a fits with ubiquitous language).

Armed with that - there's still one tricky part left - mapping between excel DOM dtos to domain objects. This is where I sacrifice encapsulation - I construct entity with its value objects from outside. My thought process is kind a simple - this overexposed entity can't be persisted anyway and validness still can be forced (through constructors). It lives underneath aggregate root.

Basically - this is the part where You can't runaway from CRUDyness.
Sometimes application is just editing bunch of data.

P.s. I'm not sure that I'm doing right thing. It's likely I've missed something important on this issue. Hopefully there will be some insight from other answerers.

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Thanks for the answer. –  christian Jan 11 '11 at 12:17
    
Regarding the immutability of entities, I meant from the OUTSIDE, so we're on the same page there. I see that the atomicity can be broken down and that may get one somewhere, but if that can't happen (like your example, but even in my policy example), looks like the suggestion is complex factories...which end up echoing all your domain's modifiable state or have to map from DTO-type things. Maybe others will shed some additional light. –  christian Jan 11 '11 at 12:24

Part of my answer seems to be captured in these posts:

Domain Driven Design - Parent child relation pattern - Specification pattern

Best practice for Handling NHibernate parent-child collections

how should i add an object into a collection maintained by aggregate root

To summarize:

It is OK to create an entity outside its aggregate if it can manage its own consistency (you may still use a factory for it). So having a transient reference to Auto is OK and then a new Policy(Auto) is how to get it into the aggregate. This would mean building up "temporary" graphs to get the details spread out a bit (not all piled into one factory method or constructor).

I'm seeing my alternatives as either:

(a) Build a DTO or other anemic graph first and then pass it to a factory to get the aggregate built.

Something like:

autoDto = new AutoDto();
autoDto.setVin(..);
autoDto.setEtc...
autoDto.setGaragedLocation(new Location(..));
autoDto.addDriver(...);
Policy policy = PolicyFactory.getInstance().createPolicy(x, y, autoDto);
auto1Dto...
policy.addAuto(auto1Dto);

(b) Use builders (potentially compound):

builder = PolicyBuilder.newInstance();
builder = builder.setX(..).setY(..);
builder = builder.addAuto(vin, new Driver()).setGaragedLocation(new Location());
Policy = builder.build();
// and how would update work if have to protect the creation of Auto instances?
auto1 = AutoBuilder.newInstance(policy, vin, new Driver()).build();
policy.addAuto(auto1);

As this thing twists around and around a couple things seem clear.

In the spirit of ubiquitous language, it makes sense to be able to say:

policy.addAuto

and

policy.updateAuto

The arguments to these and how the aggregate and the entity creation semantics are managed is not quite clear, but having to look at a factory to understand the domain seems a bit forced.

Even if Policy is an aggregate and manages how things are put together beneath it, the rules about how an Auto looks seem to belong to Auto or its factory (with some exceptions for where Policy is involved).

Since Policy is invalid without a minimally constructed set of children, those children need to be created prior or within its creation.

And that last statement is the crux. It looks like for the most part these posts handle the creation of children as separate affairs and then glue them. The pure DDD approach would seem to argue that Policy has to create Autos but the details of that spin wildly out of control in non-trivial cases.

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I'd say non trivial cases are caused by you not making Auto an Aggregate Root. An Entity has to be pretty trivial for it to not be an Aggregate itself. If Auto needs to be created by itself, than it lives on it's own, and not as a part of Policy. If Auto was just some information that only the Policy cared about, and for which the Policy was responsible, then it would make sense to have the Policy create and update and delete it. –  didibus May 2 at 20:02

Aggregate Roots exist for the purpose of transactional consistency.

Technically, all you have are Value Objects and Entities.

The difference between the two is immutability and identity.

A Value Object should be immutable and it's identity is the sum of it's data.

Money // A value object
{
    string Currency;
    long Value;
}

Two Money objects are equal if they have equal Currency and equal Value. Therefore, you could swap one for the other and conceptually, it would be as if you had the same Money.

An Entity is an object with mutability over time, but whose identity is immutable throughout it's lifetime.

Person
{
    PersonId Id; // An immutable Value Object storing the Person's unique identity
    string Name;
    string Email;
    int Age;
}

So when and why do you have Aggregate Roots?

Aggregate Roots are specialised Entities or Value Objects whose job is to group a set of domain concepts under one transactional scope for purpose of data change only. That is, say a Person had some Money. You would need to ask yourself, should changes on Money and changes on Person be grouped together under a single transaction? Or can I change one separately from the other?

If Money can be changed by itself, and Person can be changed by itself, then they both are Aggregate Roots. If Money can not be changed alone, and Person must always be involved in the transaction, than Money should be composed inside the Person entity. At which point, you would have to go through Person to change Money.

TO ANSWER YOUR QUESTION:

I keep hearing you talk about Auto, so that's obviously an important concept of your domain. Is it an entity or a value object? Does it matter if the Auto is the one with serial #XYZ, or are you only interested in brand, colour, year, model, make, etc.? Say you care about the exact identity of the Auto and not just it's features, than it would need to be an Entity of your domain. Now, you talk about Policy, a policy dictates what is covered and not covered on an Auto, this depends on the Auto itself, and probably the Customer too, since based on his driving history, the type and year and what not of Auto he has, his Policy might be different.

So I can already conceive having:

Auto : Entity, IAggregateRoot
{
    AutoId Id;
    string Serial;
    int Year
    colour Colour;
    string Model
    bool IsAtGarage
    Garage Garage;
}

Customer : Entity, IAggregateRoot
{
    CustomerId Id;
    string Name;
    DateTime DateOfBirth;
}

Policy : Entity, IAggregateRoot
{
    string Id;
    CustomerId customer;
    AutoId[] autos;
}

Garage : IValueObject
{
    string Name;
    string Address;
    string PhoneNumber;
}

Now the way you make it sound, you can change a Policy without having to change an Auto and a Customer together. You say things like, what if the Auto is at the garage, or we transfer an Auto from one Policy to another. This makes me feel like Auto is it's own Aggregate Root, and so is Policy and so is Customer. Why is that? Because it sounds like it is the usage of your domain that you would change an Auto's garage without caring that the Policy be changed with it. That is, if someone changes an Auto's Garage and IsAtGarage state, you don't care not to change the Policy. I'm not sure if I'm being clear, you wouldn't want to change the Customer's Name and DateOfBirth in a non transactional way, because maybe you change his name, but it fails to change the Date and now you have a corrupt customer whose Date of Birth doesn't match his name. On the other hand, it's fine to change the Auto without changing the Policy. Because of this, Auto should not be in the aggregate of Policy. Effectively, Auto is not a part of Policy, but only something that the Policy keeps track of and might use.

Now we see that it then totally make sense that you are able to create an Auto on it's own, as it is an Aggregate Root. Similarly, you can create Customers by themselves. And when you create a Policy, you simply must link it to a corresponding Customer and his Autos.

aCustomer = Customer.Make(...);
anAuto = Auto.Make(...);
anotherAuto = Auto.Make(...);
aPolicy = Policy.Make(aCustomer, { anAuto, anotherAuto }, ...);

Now, in my example, Garage isn't an Aggregate Root. This is because, it doesn't seem to be something that the domain directly works with. It is always used through an Auto. This makes sense, Insurance companies don't own garages, they don't work in the business of garages. You wouldn't ever need to create a Garage that existed on it's own. It's easy then to have an anAuto.SentToGarage(name, address, phoneNumber) method on Auto which creates a Garage and assign it to the Auto. You wouldn't delete a Garage on it's own. You would do anAuto.LeftGarage() instead.

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