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Below is the classical Clean Architecture diagram from Uncle Bobs original blog post.

Clean Architecture

I am rather confused as to why the Gateways are more outwards than the Use Cases. This is something present in all such diagrams I have seen so far that include Gateways or some other form of Data Access mechanism.

I understand that Use Cases should not bind to the specifics of the Data Access mechanism, as these should be hidden behind an architectural boundary. At the same time the only users of the services that form this boundary should be the Use Cases. That clashes hard with the diagram, as following the visual rules, Use Cases cannot use the Gateways (while they need to) and frameworky-stuff can use them (while it should not).

Am I missing something? And if not, is there a more correct way to represent the rules of The Clean Architecture visually?

I'm asking because I am creating a diagram that shows The Clean Architecture + DDD Bounded Contexts.

enter image description here

I'm not happy with how the DB and services bits are outside of the UseCase circle as like that it is not clear the UseCases are the public interface of the Bounded Context and that the persistence is not directly accessible from the outside.

Something like this solves these two issues but introduces a new one: no indication of the data access layer boundary. In fact, following the visual rules, the diagram suggests that everything in the Bounded Context can directly access the persistence.

enter image description here

I believe I am running into the same problem that causes the Gateways to be "misplaced" in the original diagram and am looking for a way around that.

  • I ended up putting the DB outside of the UC circle. Like this it is not super obvious the UCs form the public interface of the BC, but at least the dependencies are clear. entropywins.wtf/blog/2018/09/09/… – Jeroen De Dauw Sep 14 '18 at 11:16
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The diagram shows where the implementations reside, not the interfaces. The gateway interfaces reside with the use cases.

  • That solves "UseCases need to be able to access the gateways" though leaves open "Gateway implementations should not be able to use UseCases". Or should they? – Jeroen De Dauw Aug 15 '18 at 20:45
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    @JeroenDeDauw You could always separate the interfaces in their own module to avoid use cases being visible. However, somewhere in your application you will always be able to access all public types, hence you have the option of writing "spaghetti code". But should you? IMO. some "encapsulation" have to be enforced by convetion rather than compiler support. – Lars-Erik Aug 16 '18 at 7:51
  • @Lars-Erik my question is purely about the diagram and visual representation of the architectural rules. So not about how to follow these rules in a codebase. – Jeroen De Dauw Aug 30 '18 at 19:39
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In your BC drawing your are missing a surrounding circle outside UC. That circle is infraestructure, where you should place the Repository implementation of the Repository interface of the Domain Model. The implementation access the DB using a technology (SQL for example).

So the circles are from inside to outside:

  • Domain Model (entities, value objects, repositories(interfaces), etc)
  • Application Layer (use cases).
  • Infraestructure (UI,repositories(implementation),etc)

Dependencies points inwards and not just the next circle inside (infraestructure depends both on application layer and domain model).

I use hexagonal architecture though.

  • Given that in my diagram there can be no UI code inside of a Bounded Context, I'm not sure why the infrastructure would ever depend on the UseCases. In fact to me it seems implementations of repositories should never use a UseCase. Do you see things differently? – Jeroen De Dauw Aug 15 '18 at 20:48
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    If you don't have UI inside your BC, then just don't put any UI component in the infraestructure circle. The infraestructure depends on the use cases because there are some application layer concerns that are implemented by the infraestrucure (transactions, security, and in general any concern that is not specific of the BC domain).Along with those concerns,in the infraestructure circle also live the implementation of domain specific interfaces (like repositories).The dependencies rules of the architecture allows you to access use cases from the implementation of repositories,but you shouldn't – choquero70 Aug 16 '18 at 1:52
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    It's up to the developer not to do those kind of things. But the architecture in circles I told you (onion architecture) allow to do them. That's why I prefer Ports and Adapters (aka Hexagonal Architecture). – choquero70 Aug 16 '18 at 1:56
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The diagram is a more elaborate version of Alistair Cockburn's Hexagonal Architecture, which is a lot more precise about the use of adapters, especially in respect to CDI.

Essentially, the idea is to turn dependencies inward: Use Cases may depend upon Entities (i.e., import domain related packages and use domain data types; Cockburn does not describe these as separate circles, but rather as "the application"). Adapters on the left may call Use Cases (i.e., execute or abort them, e.g. using the Command pattern), while Use Cases in turn may call interfaces (such as service or repository facades, which are implemented by Adapters on the right), using the principle of Dependency Inversion to preserve the inbound direction.

If you're confused about "left" and "right": In Cockburn's picture, the hexagon has adapters on the left (input/interaction mechanisms) and on the right (persistence, external systems, services). You may think of it as a 3-layer-architecture diagram turned 90 degrees, where the domain layer does not depend on the persistence layer, but the other way around.

Again, Cockburn's explanation, while perhaps a bit harder to grasp due to the unusual hexagonal image, is the more precise one, because it doesn't try to include everything and concentrates on the dependency fundamentals.

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    Can you explain how it falls short for applications that are not server side web-apps? (Or link to an explanation) – Jeroen De Dauw Aug 14 '18 at 22:02
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    To answer the follow-up: 1) In highly distributed systems, the flow of information is often multi-directional and requires "hopping in an out" of the described circles. There may be interactors or presenters involved, but there don't have to be. There are also often party of the system that contain read-only services and views (read models), and state is (re-)calculated from events. You will find some of the principles embedded in "Clean Architecture", of course, but reality will differ. – weltraumpirat Aug 16 '18 at 12:47
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    2) In Enterprise environments, you have domain knowledge, presenter and view logic in highly partitioned, often legacy systems that will cover some of the flow of information, but can not as neatly separated as "an adapter that calls an api". It is, again, good to apply the underlying principles (e.g., strive for domain separation and well-defined anti-corruption layers with clean interfaces), but requires more fine-grained approaches to make it work. – weltraumpirat Aug 16 '18 at 12:51
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    3) in single page apps and mobile apps, which Martin conveniently abstracts away as "devices", you will often have local domain logic and state, which has to be synchronized with the web services in this diagram. Some of the interactions may look as described, but there are more complex data flow scenarios involved. Once again, the underlying principles are useful, but the solution described by this diagram falls short. – weltraumpirat Aug 16 '18 at 12:54
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    I think it is dangerous to assume that there is only one true way of designing "Clean Architecture", and thus every other way must be "unclean". For different system components, different requirements and different environments, different rules will apply. What's prudent in one scenario may turn out to be a hindrance in others. Identifying useful patterns and principles is a good thing - but always remember that architecture is a game of tradeoffs and compromises and by its very nature decidedly non-binary. – weltraumpirat Aug 16 '18 at 12:58
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The gateway interfaces must reside in the use cases layer and implemented in the interface adapters layer to ensure the dependency rule.

  Interface Adapters Layer    || Use Cases Layer
                              ||
  +-----------------+         || <implements>    +-------------+   <uses>  +---------+
  |JDBCEntityGateway| --------++-------------->  +EntityGateway|  <------  | UseCase |
  +-----------------+         ||                 +-------------+           +---------+
                              ||

This pattern can be applied to every architectural boundary. The higher level layer defines an interface to tell what it needs and not how it is done. The lower level layer implements that interface and thus defines how it is done. Maybe that's why the layer is named interface adapters. As a result of this you can change the way of how something is done by providing another implementation. You might recognize now that this is the open-close principle.

But keep in mind that the interface should be a stable abstraction of what the use case needs. Don't put implementation specific things in that interface, e.g. if you specify a find method like this List<Eintity> find(String where). Becauese the where string is a detail, perhaps a SQL or JPQL string part. You should rather introduce a EntityCriteria that describes the selection criteria in an implementation independent way.

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