I am looking to see what approaches people might have taken to detect changes in entities that are a part of their aggregates. I have something that works, but I am not crazy about it. Basically, my repository is responsible for determining if the state of an aggregate root has changed. Let's assume that I have an aggregate root called
Book and an entity called
Page within the aggregate. A
Book contains one or more
Page entities, stored in a
Primarily, insert vs. update scenarios are done by inspecting the aggregate root and its entities to determine the presence of a key. If the key is present, it is presumed that the object has been, at one time, saved to the underlying data source. This makes it a candidate for an update; but it is not definitive based upon that alone for the entities. With the aggregate root the answer is obvious, since there is only one and it is the singular point of entry, it can be assumed that key presence will dictate the operation. It is an acceptable scenario, in my case, to save the aggregate root itself back again so that I can capture a modification date.
To help facilitate this behavior for the entities themselves, my
EntityBase class contains two simple properties:
IsDeleted(). Both of these default to false. I don't need to know if it is new or not, because I can make that determination based upon the presence of the key, as mentioned previously. The methods on the implementation, in this case the Page, would have each method that changes the backing data set
IsUpdated() to true.
So, for example, Page has a method called
UpdateSectionName() which changes the backing value of the
SectionName property, which is read-only. This approach is used consistently, as it allows for a logical attachment point of validators in the method (preventing the entity from entering an invalid state) that performs that data setting. The end result is that I have to put a
this.IsUpdated() = true; at the end of the method.
When the aggregate root is sent into the repository for the
Save() (a logic switch to either an
Update() operation), it can then iterate over the
Pages collection in the
Book, looking for any pages that have one of three scenarios:
- No key. A
Pagewith no key will be inserted.
IsDeleted = true;A delete trumps an update, and the deletion will be committed - ignoring any update for the
IsUpdated = true;An update will be committed for the Page.
Doing it this way prevents me from just blindly updating everything that is in the Pages collection, which could be daunting if there were several hundred Page entities in the Book, for example. I had been considering retrieving a copy of the Book, and doing a comparison and only committing changes detected, (inserts, updates, and deletes based upon presence and/or comparison), but it seemed to be an awfully chatty way to go about it.
The main drawback is that the developer has to remember to set IsUpdated in each method in the entity. Forget one, and it will not be able to detect changes for that value. I have toyed with the idea of some sort of a custom backing store that could transparently timestamp changes, which could in turn make
IsUpdated a read-only property that the repository could use to aggregate updates.
The repository is using a unit of work pattern implementation that is basing its actions on the timestamp generated when the aggregate root was added to it. Since there might be multiple entities queued for operations, entity operations are rolled up and executed immediately after the aggregate root operation(s) are executed that the entities belong to. I could see taking it a step further and creating another unit of work to just handle the entity operations and base them off some sort of event tracking used in the entity (which is how I am assuming that some of the ORM products on the market accomplish a similar level of functionality).
Before I keep on moving in this direction, though, I would love to hear ideas/recommendations/experiences regarding this.
Edit: A few additional pieces of information that might be helpful to know:
- The current language that I am working with is C#, although I tried to keep as much language-specific information out as possible, because this is more of a theoretical discussion.
- The code for the repositories/services/entities/etc. is based upon Tim McCarthy's concept in his book, ".NET Domain-Driven Design with C#" and the supporting code on CodePlex. It provides a runnable understanding of the type of approach taken, although what I am working with has largely been rewritten from the ground up.