i have designed a model for a website with the following domain objects:
Article <>
Event <> (like festival, ...)
Comment <> (can be created for articles and events)
Where do i put the Comment-Domain Object in the model?
Should it stay alone or use it's own aggregate?
But a comment makes no sense without an article or an event....
Thanks Mario
Firstly DDD doesn't prevent two aggregate roots to reference the same domain object. As long as the object is not part of both the aggregate root boundaries.
In this case I would consider to create an ArticleComment and EventComment objects, each belonging to their relevant aggregate roots. This should be clearer working with a comment object that only applies to one type being commented on. You can still enforce common data and behaviour by having an abstract Comment class.
Related
I'm new to DDD and I want to clearly understand each domain object structure and role:
Aggregate Root:
1.1. The only contact point the client can interact with the domain objects, the client should not be able to modify or create new Entities or value objects whiteout the aggregate root? (Yes/No)
1.2. Can an aggregate root contain only value objects ? for example User root, it contain only address, phone, things which are value objects as far as I understand. So is it a sign of bad design when your aggregate root contain only value objects? shall it contain only entities and via entities interact with value objects?
Entities: Shall the entities contain only value objects? or it can also contain other entities? can you give me a simple example please ?
Value Objects: shall I go ahead and encapsulate every primitive type in an value object? I can go deep and make every primitive type as an value object, for example: PhoneNumber can be a string or an value object which contains country code, number. the same thing can be applied to all other primitive type value such as name, email. So where to draw the line ? where to say "Ok I'm going to deep", or going deep is the right way of doing DDD?
Factories: Do I really need them? I can go ahead and write an static method within the domain object which knows more precisely how to construct it, am I doing wrong ?
Sorry for the long questions, but I'm feeling little lost despite of continues reading, if you can help me I would be glad.
I'll try to answer all your questions:
1.1. The only contact point the client can interact with the domain objects, the client should not be able to modify or create new Entities or value objects whiteout the aggregate root? (Yes/No)
Entities live within ARs and allowing the client to create them would violate encapsulation, so for entities you are correct, ARs create their own entities which don't get exposed to the outside (copies/immutable views could be).
On the other hand, value objects are generally immutable and therefore there's no harm in having them supplied to the AR as data inputs.
In general all modifications needs to go through the AR so that the AR is aware of the modification. In special situations the AR could detect modifications within it's cluster by listening to events raised by internal entities when it's impractical to go through the root.
1.2. Can an aggregate root contain only value objects ? for example User root, it contain only address, phone, things which are value objects as far as I understand. So is it a sign of bad design when your aggregate root contain only value objects? shall it contain only entities and via entities interact with value objects?
Favor value objects as much as you can. It's not unusual for all parts of an AR being modeled as values. However, there's no limitation or law stating whether or not an AR should have only values or entities, use the composition that's fit to your use case.
Entities: Shall the entities contain only value objects? or it can also contain other entities? can you give me a simple example please ?
Same answer as above, no limitation nor law.
Value Objects: shall I go ahead and encapsulate every primitive type in an value object? I can go deep and make every primitive type as an value object, for example: PhoneNumber can be a string or an value object which contains country code, number. the same thing can be applied to all other primitive type value such as name, email. So where to draw the line ? where to say "Ok I'm going to deep", or going deep is the right way of doing DDD?
Primitive obsession is worst than value object obsession in my experience. The cost of wrapping a value is quite low in general, so when in doubt I'd model an explicit type. This could save you a lot of refactoring down the road.
Factories: Do I really need them? I can go ahead and write an static method within the domain object which knows more precisely how to construct it, am I doing wrong ?
Static factory methods on ARs are quite common as a mean to be more expressive and follow the UL more closely. For instance, I just modeled as use case today where we had to "start a group audit". Implemented a GroupAudit.start static factory method.
Factory methods on ARs for other ARs are also quite common, such as var post = forum.post(author, content) for instance, where Post is a seperate AR than Forum.
When the process requires some complex collaborators then you may consider a standalone factory though since you may not want clients to know how to provide and setup those collaborators.
I'm new to DDD and I want to clearly understand each domain object structure and role
Your best starting point is "the blue book" (Evans, 2003).
For this question, the two important chapters to review are chapter 5 ("A model expressed in software") and chapter 6 ("the life cycle of a domain object").
ENTITIES and VALUE OBJECTS are two patterns described in chapter 5, which is to say that they are patterns that commonly arise when we are modeling a domain. The TL;DR version: ENTITIES are used to represent relationships in the domain that change over time. VALUE OBJECTS are domain specific data structures.
AGGREGATES and FACTORIES are patterns described in chapter 6, which is to say that they are patterns that commonly arise when we are trying to manage the life cycle of the domain object. It's common that modifications to domain entities may be distributed across multiple sessions, so we need to think about how we store information in the past and reload that information in the future.
The only contact point the client can interact with the domain objects, the client should not be able to modify or create new Entities or value objects whiteout the aggregate root?
Gray area. "Creation patterns are weird." The theory is that you always copy information into the domain model via an aggregate root. But when the aggregate root you need doesn't exist yet, then what? There are a number of different patterns that people use here to create the new root entity from nothing.
That said - we don't expect the application to be directly coupled to the internal design of the aggregate. This is standard "best practice" OO, with the application code coupled to the model's interface without being coupled to the model's implementation/data structure.
Can an aggregate root contain only value objects ?
The definition of the root entity in the aggregate may include references to other entities in the same aggregate. Evans explicitly refers to "entities other than the root"; in order to share information with an entity other than the root, there must be some way to traverse references from the root to these non-root entities.
Shall the entities contain only value objects?
The definition of an entity may include references to other entities (including the root entity) in the same aggregate.
shall I go ahead and encapsulate every primitive type in an value object?
"It depends" - in a language like java, value objects are an affordance that make it easy for the compiler to give you early feed back about certain kinds of mistakes.
This is especially true if you have validation concerns. We'd like to validate (or parse) information once, rather than repeating the same check every where (duplication), and having validated vs unvalidated data be detectably different reduces the risk that unvalidated data leaks into code paths where it is not handled correctly.
Having a value object also reduces the number of places that need to change if you decide the underlying data structure needs improvement, and the value object gives you an easily guessed place to put functions/methods relating to that value.
Factories: Do I really need them?
Yes, and...
I can go ahead and write an static method within the domain object
... that's fine. Basic idea: if creating a domain object from so sufficient set of information is complicated, we want that complexity in one place, which can be invoked where we need it. That doesn't necessarily mean we need a NOUN. A function is fine.
And, of course, if your domain objects are not complicated, then "just" use the objects constructor/initializer.
In DDD we model the domain using several aggregates (root + entities). One such aggregate or entity can hold a reference to another aggregate root through its id.
In axon, I see the concept of aggregates and member entities, but I do not see the notion of references to other aggregates.
What am I missing? Or is this not possible in axon?
It works the same, you can hold the reference of another aggregate throught its aggregateId (String/UUID/Whatever).
I wish I could provide more insights to you but your question is rather vague =)
No, it is not a duplication question.
I have red many sources on the subject, but still I feel like I don't fully understand it.
This is the information I have so far (from multiple sources, be it articles, videos, etc...) about what is an Aggregate and Aggregate Root:
Aggregate is a collection of multiple Value Objects\Entity references and rules.
An Aggregate is always a command model (meant to change business state).
An Aggregate represents a single unit of (database - because essentialy the changes will be persisted) work, meaning it has to be consistent.
The Aggregate Root is the interface to the external world.
An Aggregate Root must have a globally unique identifier within the system
DDD suggests to have a Repository per Aggregate Root
A simple object from an aggregate can't be changed without its AR(Aggregate Root) knowing it
So with all that in mind, lets get to the part where I get confused:
in this site it says
The Aggregate Root is the interface to the external world. All interaction with an Aggregate is via the Aggregate Root. As such, an Aggregate Root MUST have a globally unique identifier within the system. Other Entites that are present in the Aggregate but are not Aggregate Roots require only a locally unique identifier, that is, an Id that is unique within the Aggregate.
But then, in this example I can see that an Aggregate Root is implemented by a static class called Transfer that acts as an Aggregate and a static function inside called TransferedRegistered that acts as an AR.
So the questions are:
How can it be that the function is an AR, if there must be a globaly unique identifier to it, and there isn't, reason being that its a function. what does have a globaly unique identifier is the Domain Event that this function produces.
Following question - How does an Aggregate Root looks like in code? is it the event? is it the entity that is returned? is it the function of the Aggregate class itself?
In the case that the Domain Event that the function returns is the AR (As stated that it has to have that globaly unique identifier), then how can we interact with this Aggregate? the first article clearly stated that all interaction with an Aggregate is by the AR, if the AR is an event, then we can do nothing but react on it.
Is it right to say that the aggregate has two main jobs:
Apply the needed changes based on the input it received and rules it knows
Return the needed data to be persisted from AR and/or need to be raised in a Domain Event from the AR
Please correct me on any of the bullet points in the beginning if some/all of them are wrong is some way or another and feel free to add more of them if I have missed any!
Thanks for clarifying things out!
I feel like I don't fully understand it.
That's not your fault. The literature sucks.
As best I can tell, the core ideas of implementing solutions using domain driven design came out of the world of Java circa 2003. So the patterns described by Evans in chapters 5 and six of the blue book were understood to be object oriented (in the Java sense) domain modeling done right.
Chapter 6, which discusses the aggregate pattern, is specifically about life cycle management; how do you create new entities in the domain model, how does the application find the right entity to interact with, and so on.
And so we have Factories, that allow you to create instances of domain entities, and Repositories, that provide an abstraction for retrieving a reference to a domain entity.
But there's a third riddle, which is this: what happens when you have some rule in your domain that requires synchronization between two entities in the domain? If you allow applications to talk to the entities in an uncoordinated fashion, then you may end up with inconsistencies in the data.
So the aggregate pattern is an answer to that; we organize the coordinated entities into graphs. With respect to change (and storage), the graph of entities becomes a single unit that the application is allowed to interact with.
The notion of the aggregate root is that the interface between the application and the graph should be one of the members of the graph. So the application shares information with the root entity, and then the root entity shares that information with the other members of the aggregate.
The aggregate root, being the entry point into the aggregate, plays the role of a coarse grained lock, ensuring that all of the changes to the aggregate members happen together.
It's not entirely wrong to think of this as a form of encapsulation -- to the application, the aggregate looks like a single entity (the root), with the rest of the complexity of the aggregate being hidden from view.
Now, over the past 15 years, there's been some semantic drift; people trying to adapt the pattern in ways that it better fits their problems, or better fits their preferred designs. So you have to exercise some care in designing how to translate the labels that they are using.
In simple terms an aggregate root (AR) is an entity that has a life-cycle of its own. To me this is the most important point. One AR cannot contain another AR but can reference it by Id or some value object (VO) containing at least the Id of the referenced AR. I tend to prefer to have an AR contain only other VOs instead of entities (YMMV). To this end the AR is responsible for consistency and variants w.r.t. the AR. Each VO can have its own invariants such as an EMailAddress requiring a valid e-mail format. Even if one were to call contained classes entities I will call that semantics since one could get the same thing done with a VO. A repository is responsible for AR persistence.
The example implementation you linked to is not something I would do or recommend. I followed some of the comments and I too, as one commenter alluded to, would rather use a domain service to perform something like a Transfer between two accounts. The registration of the transfer is not something that may necessarily be permitted and, as such, the domain service would be required to ensure the validity of the transfer. In fact, the registration of a transfer request would probably be a Journal in an accounting sense as that is my experience. Once the journal is approved it may attempt the actual transfer.
At some point in my DDD journey I thought that there has to be something wrong since it shouldn't be so difficult to understand aggregates. There are many opinions and interpretations w.r.t. to DDD and aggregates which is why it can get confusing. The other aspect is, in IMHO, that there is a fair amount of design involved that requires some creativity and which is based on an understanding of the domain itself. Creativity cannot be taught and design falls into the realm of tacit knowledge. The popular example of tacit knowledge is learning to ride a bike. Now, we can read all we want about how to ride a bike and it may or may not help much. Once we are on the bike and we teach ourselves to balance then we can make progress. Then there are people who end up doing absolutely crazy things on a bike and even if I read how to I don't think that I'll try :)
Keep practicing and modelling until it starts to make sense or until you feel comfortable with the model. If I recall correctly Eric Evans mentions in the Blue Book that it may take a couple of designs to get the model closer to what we need.
Keep in mind that Mike Mogosanu is using a event sourcing approach but in any case (without ES) his approach is very good to avoid unwanted artifacts in mainstream OOP languages.
How can it be that the function is an AR, if there must be a globaly unique identifier to it, and there isn't, reason being that
its a function. what does have a globaly unique identifier is the
Domain Event that this function produces.
TransferNumber acts as natural unique ID; there is also a GUID to avoid the need a full Value Object in some cases.
There is no unique ID state in the computer memory because it is an argument but think about it; why you want a globaly unique ID? It is just to locate the root element and its (non unique ID) childrens for persistence purposes (find, modify or delete it).
Order A has 2 order lines (1 and 2) while Order B has 4 order lines (1,2,3,4); the unique identifier of order lines is a composition of its ID and the Order ID: A1, B3, etc. It is just like relational schemas in relational databases.
So you need that ID just for persistence and the element that goes to persistence is a domain event expressing the changes; all the changes needed to keep consistency, so if you persist the domain event using the global unique ID to find in persistence what you have to modify the system will be in a consistent state.
You could do
var newTransfer = New Transfer(TransferNumber); //newTransfer is now an AG with a global unique ID
var changes = t.RegisterTransfer(Debit debit, Credit credit)
persistence.applyChanges(changes);
but what is the point of instantiate a object to create state in the computer memory if you are not going to do more than one thing with this object? It is pointless and most of OOP detractors use this kind of bad OOP design to criticize OOP and lean to functional programming.
Following question - How does an Aggregate Root looks like in code? is it the event? is it the entity that is returned? is it the function
of the Aggregate class itself?
It is the function itself. You can read in the post:
AR is a role , and the function is the implementation.
An Aggregate represents a single unit of work, meaning it has to be consistent. You can see how the function honors this. It is a single unit of work that keeps the system in a consistent state.
In the case that the Domain Event that the function returns is the AR (As stated that it has to have that globaly unique identifier),
then how can we interact with this Aggregate? the first article
clearly stated that all interaction with an Aggregate is by the AR, if
the AR is an event, then we can do nothing but react on it.
Answered above because the domain event is not the AR.
4 Is it right to say that the aggregate has two main jobs: Apply the
needed changes based on the input it received and rules it knows
Return the needed data to be persisted from AR and/or need to be
raised in a Domain Event from the AR
Yes; again, you can see how the static function honors this.
You could try to contat Mike Mogosanu. I am sure he could explain his approach better than me.
I mean, is there any PersonAggregate class? I understand it doesn't exist. I only have an entity acting as aggregate root. Is it correct?
I only have an entity acting as aggregate root. Is it correct?
That's correct.
The aggregate is implicit - it's the boundary that separates two disjoint sets of state that can be modified independently of each other. Equivalently, the aggregate is a graph of business state within a model that can be modified without consulting state outside the graph, and vice versa.
The aggregate root is explicit. That's the single entity in the graph that is exposed - which is to say that it serves as the entry point through which all modifications to the graph must pass.
Hypothetically, you could implement an aggregate that has two different exposed entities that can each execute commands to modify the state; Evans introduced the notion of a single aggregate root because multiple entry points is difficult to get correct.
I have seen both solutions used in projects, but most often people do not use this suffix.
One interesting solution for this is make aggregate classes public and non-aggregate classes package(default). You'd see directly from your IDE which classes have which visibility and you can determine easily where is an aggregate. Additionally non-public class cannot be used outside package which is an original intent.
My understanding is an Aggregate Root is an Entity but an Entity might not be an Aggregate Root. Therefore, I view 'Aggregate Root' as more of a stereotype.
Not in domain-driven design. That would be exposing technological jargon, essentially implementation detail, to the domain experts
I am into my first week of DDD and have a couple of entities with aggregate roots defined.
I read that no external entity outside of an aggregate can reference an entity in an aggregate, so the external entity has to reference the aggregate root.
Well, unless I have modelled my solution incorrectly I need a reference to an entity behind the aggregate root. How do I handle this situation or do I have to remodel my domain to avoid this situation?
JD
You probably could refine your model. If an external reference to an entity inside your aggregate is required, then that is a strong indicator that the internal entity might be an aggregate root itself.
This of course is general advice since I don't know anything about your specific model.
For great advice concerning aggregate design, have a look at this paper by Vaughn Vernon. In Part I, "Modeling of an Aggregate", he specifically addresses aggregate granularity which I found very enlightening.