# A tree, where each node could have multiple parents

Here's a theoretical/pedanticle question: There are some good questions here btw. Unfortunately, most the answers I've come across seem to stress some third party solution.

Imagine property where each property could be owned by multiple parties. Furthermore, from one iteration of ownership to the next two neighboring territories' owners could decide to partly combine ownership such that.....

territory 1, t=0: a,b,c,d territory 2, t-0: e,f,g,h

territory 1, t=1: a,b,g,h territory 2, t=1: g,h

That is to say, c and d no longer own property, and g and h became fat cats, so to speak.

I'm, currently, representing this data structure as a tree where each child could have multiple parents. My goal is to cram this in the composite data structure, but I'm having issues getting a conceptual footing on how the client might go back and update previous ownership without mucking up the whole structure.

My question is two fold: Easy: What is a convenient name for this data structure such that I can google it myself?

Hard: What am I doing wrong? When I code I try to keep the mantra, "Keep it simple, Stupid," in my head, and I feel I am breaking this credo.

Thanks guys!

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That is, by definition, not a tree. –  Mare Infinitus Jul 19 '12 at 5:52
Ok, by definition, what is it? –  Dale Jul 19 '12 at 6:01
Please have a look at my answer. If you want more detailed information, please provide some information about the language you are using. Given that, more concrete examples are easier to give. –  Mare Infinitus Jul 19 '12 at 6:03

My question is two fold: Easy: What is a convenient name for this data structure such that I can google it myself?

What you have here is not a tree, it is a graph. A multimap will help you here. But any adjacency list or adjacency matrix will give you a good start.

Hard: What am I doing wrong?

This is really hard to tell. Perhaps you did not model the relationship in a proper way. It is not that hard, given a good datastructure to start with.

And, as you asked for design patterns (but you probably found out yourself), the Composite pattern will let you model such an setting with ease.

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damn, your answer will take time to mull. I suspect there is good stuff. In particular, I hope there is clean literature on graphs with respect to this and not third party stuff. Yes, perhaps I did not model the relationship well... I will get back to you. –  Dale Jul 19 '12 at 6:12
You are welcome. Given any language that has references or pointers, you do not need third party libraries. If you have further questions, just leave a comment. –  Mare Infinitus Jul 19 '12 at 6:17
Thank you Mare. I am still trying to wrap my head around the problem. But, I do believe the graph data structure is the way to go. I'm thinking, owners are fly weights whose intrinsic property is just name. Territories share owners, calling owners if they exist or creating them if need be. Territories then would hold the unique data not common to the owners. Encaspulating this whole mess is the composite design, leveraging the graph data structure. Thanks again, I feel I am on the right path. –  Dale Jul 20 '12 at 1:59

You have a many-to-many relationship between your owners and your territories (properties). I'm not sure what language you're working in, but this sort of thing can be easily represented and tracked in a relational database. (You'd probably want a table for each entity, and the relationship would probably require a third "junction" table. If it's necessary to be able to query "back in time", this could have some sort of "time index" column as well.)

If you are working in an object-oriented language, you might create two classes, Territory and Owner, where the Territory class has a property/member/field which is a collection of references/pointers to Owners and the Owner class has a similar collection of Territories. (One of these two collections may need to contain "weak" references depending on the language.)

In this case, some difficulty may arise if you want to be able to go back and look at the network state at some particular point earlier in time. (If this is what you need, say so and I (or someone else) can post a solution that works for that.)

I'm not sure what level of simplicity you are striving for, but in neither of these cases is updating the ownership relationships really that "hard". Maybe if you posted some code it might be easier to give you more concrete advice.

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I appreciate your line of reasoning. Unfortunately, I have no code. Just a white board of jibberish. I do not believe representing the data this early in the calculation in a database makes much sense, both optimally and conceptually. As far as OOP goes, I was thinking...I cant newline, bear with me: class teritorry { \$owners = array(); \$lastOwners = array(); \$vertices = array();} –  Dale Jul 19 '12 at 5:50
Then the composite design pattern would be a bunch of territories. Again, this whole situation is complicated by the many to many relationship –  Dale Jul 19 '12 at 5:54
And....A way to inject ownerships in higher levels of the tree is ABSOLUTELY necessary. –  Dale Jul 19 '12 at 5:57
@user1119810 I'm not sure I understand your last comment. As Mare Infinitus rightly pointed out, you don't really have a "tree" here, so I'm not sure what you mean by "higher levels". –  Turix Jul 19 '12 at 6:30
@user1119810 re your pseudocode, if you are keeping track of `\$lastOwners`, I assume that means you want to be able to look back in time at least one timestep. Do you need more than that? (If so, an array there is not sufficient.) In addition to that, it's very important what other sorts of "queries" you want to make of this datastructure. For example, will you need to know what a given owner has now and/or in the past? Or are you more interested in territories? Or are you interested in getting collective stats about something like, say, the degree "fat-cat-ness" of your world? –  Turix Jul 19 '12 at 6:34