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Say you need to architect an app with an entity that can be associated with multiple other kinds of entities. For example, you have a Picture entity that can be associated with a Meal entity, a Person entity, a Boardroom entity, a Furniture entity, etc. I can think of a number of different ways to address this problem, but -- perhaps because I'm new to Core Data -- I'm not comfortable with any of them.

The most obvious approach that comes to mind is simply creating a relationship between Picture and each entity that supports associated pictures, but this seems sloppy since pictures will have multiple "null pointers."

Another possibility is creating a superentity -- Pictureable -- or something. Every entity that supports associated pictures would be a subentity of Pictureable, and Picture itself would have a one-to-one with Pictureable. I find this approach troubling because it can't be used more than once in the context of a project (since Core Data doesn't support multiple inheritance) AND the way Core Data seems to create one table for any given root entity -- assuming a SQLite backing -- has me afeard of grouping a whole bunch of disparate subentities under the umbrella of a common superentity (I realize that thinking along these lines may smack of premature optimization, so let me know if I'm being a ninny).

A third approach is to create a composite key for Picture that consists of a "type" and a "UID." Assuming every entity in my data model has a UID, I can use this key to derive an associated managed object from a Picture instance and vice versa. This approach worries me because it sounds like it might get slow when fetching en masse; it also doesn't feel native enough to me.

A fourth approach -- the one I'm leaning towards for the app I'm working on -- is creating subentities for both Picture and X (where X is either Meal, Person, Boardroom, etc.) and creating a one-to-one between both of those subentities. While this approach seems like the lesser of all evils, it still seems abstruse to my untrained eye, so I wonder if there's a better way.

Edit 1: In the last paragraph, I meant to say I'm leaning towards creating subentities just for Picture, not both Picture and X.

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"let me know if I'm being a ninny" wins it for me. –  Carlton Gibson Jun 25 '12 at 15:12
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3 Answers

up vote 3 down vote accepted

I think the best variations on this theme are (not necessarily in order):

  1. Use separate entities for the pictures associated with Meal, Person, Boardroom, etc. Those entities might all have the same attributes, and they might in fact all be implemented using the same class. There's nothing wrong with that, and it makes it simple to have a bidirectional relationship between each kind of entity and the entity that stores its picture.

  2. Make the picture an attribute of each of the entity types rather than a separate entity. This isn't a great plan with respect to efficiency if you're storing the actual picture data in the database, but it'd be fine if you store the image as a separate file and store the path to that file in an attribute. If the images or the number of records is small, it may not really be a problem even if you do store the image data in the database.

  3. Use a single entity for all the pictures but omit the inverse relationship back to the associated entity. There's a helpful SO question that considers this, and the accepted answer links to the even more helpful Unidirectional Relationships section of the docs. This can be a nice solution to your problem if you don't need the picture->owner relationship, but you should understand the possible risk before you go down that road.

  4. Give your picture entity separate relationships for each possible kind of owner, as you described in the first option you listed. If you'll need to be able to access all the pictures as a group and you need a relationship from the picture back to its owner, and if the number of possible owner entities is relatively small, this might be your best option even if it seems sloppy to have empty attributes.

As you noticed, when you use inheritance with your entities, all the sub-entities end up together in one big table. So, your fourth option (using sub-entities for each kind of picture) is similar under the hood to your first option.

Thinking more about this question, I'm inclined toward using entity inheritance to create subentities for the pictures associated with each type of owner entity. The Picture entity would store just the data that's associated with any picture. Each subentity, like MealPicture and PersonPicture, would add a relationship to it's own particular sort of owner. This way, you get bidirectional Meal<->MealPicture and Person<->PersonPicture relationships, and because each subentity inherits all the common Picture stuff you avoid the DRY violation that was bugging you. In short, you get most of the best parts of options 1 and 3 above. Under the hood, Core Data manages the pictures as in option 4 above, but in use each of the picture subentities only exposes a single relationship.

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+1 The issue with pictures is a fairly common one. I think the (1) solution with multiple customized image entities all implemented by the same NSManagedObject subclass is the best way to go. It's a little tedious and feels "wrong" for those of use trained in a strong object-oriented school but entities aren't actually classes and they behave differently in operation so it really is the best option. –  TechZen Jul 7 '11 at 22:01
    
@Caleb #1 is interesting. I like it, except that attributes would get duped across multiple entities. #2 is tempting, although I worry it would preclude metadata about Pictures. I had already considered #3 and was hoping to avoid it; in my specific case, the bidirectional relationship is convenient, and the CD docs discourage unidirectional relationships. –  Joshua Pokotilow Jul 7 '11 at 22:04
    
@Caleb As for the fourth option I listed, I guess you're right about it being similar under the hood to the "Pictureable" option if the number of entities that support pictures is similar to the total number entities. On the bright side, the scale problem (lack of multiple inheritance) goes away, so I'm not as averse to this solution as I am to its inverse. –  Joshua Pokotilow Jul 7 '11 at 22:05
    
@TechZen Assuming I understand what @Caleb is proposing, the violation of DRY bugs me. Perhaps his suggestion is the lesser of all evils, but it seems like CD should have a better solution for this type of problem. –  Joshua Pokotilow Jul 7 '11 at 22:25
    
See my expanded answer. The violation of DRY is really illusionary because entities aren't classes. They are description of data keys and relationships and a lot of time data is repetitive. Since Core Data seeks to closely model/simultate real-word objects, events and condition, and since those real-world things are often duplicates of each other, Core Data doesn't impose a penalty for such duplication. –  TechZen Jul 7 '11 at 22:37
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Just to expand a bit on Caleb's excellent summation...

I think it's important not to over emphasize the similarities between entities and classes. Both are abstractions that help define concrete objects but entities are very "lightweight" compared to classes. For one thing, entities don't have behaviors but just properties. For another, they exist purely to provide other concrete objects e.g. managed object context and persistent stores, a description of the data model so those concrete objects can piece everything together.

In fact, under the hood, there is no NSEntity class, there is only an NSEnitity*Description* class. Entities are really just descriptions of how the objects in an object graph will fit together. As such, you really don't get all the overhead an inefficiency of multiplying classes when you multiply entities e.g. having a bunch of largely duplicate entities doesn't slow down the app, use more memory, interfere with method chains etc.

So, don't be afraid to use multiple seemingly redundant entities when that is the simplest solution. In Core Data, that is often the most elegant solution.

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While DRY may have been the impetus for OOP, OOP isn't the only context where it makes sense. I agree, a schema that defines data keys and relationships may not be as sophisticated as a class. I also agree that modifying duplicated schemas may not be as onerous as having to ferret out inconsistencies after making changes to a codebase that violates DRY. But just because CD schemas are simpler than classes, that doesn't mean I'll whistle dixie when I'm asked to add a "lastModified" property to each of 100 different duplicate entity schemas. –  Joshua Pokotilow Jul 7 '11 at 23:07
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The solution we're leaning towards here becomes all the more frightening when you consider entity schemas can have logic (behaviors) in the form of fetched properties. Not to mention, if you ever need to create a subentity for your duplicated entity, you need to tack on some coefficient to the number of subentity descriptions you'll need to generate / maintain. –  Joshua Pokotilow Jul 7 '11 at 23:15
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I am struggling with esactly this dilemma right now. I have many different entities in my model that can be "quantified". Say I have Apple, Pear, Farmer for all of those Entities, I need a AppleStack, PearStack, FarmerGroup, which are all just object+number. I need a generic approach to this because I want to support it in a model editor I am writing, so I decided I will define a ObjectValue abstract entity with attributes object, value. Then I will create child entities of ObjectValue and will subclass them and declare a valueEntity constant. this way I define it only once and I can write generic code that, for example, returns the possible values of the object relationship. Moreover if I need special attributes (and I actually do for a few of those) I can still add them in the child entities.

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