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I'm trying to write some modular style code in Maya (it's in 3D, but I'm doing it in a 2D style for now), where you make an object, and with each side (x,y,-x,-y), define a connector. There can be multiple connectors per side, and multiple sides/objects per connector. These also have a chance value, both on the connector and object, to determine how frequently they will be generated.

If I can eventually manage, I'll have it able to generate it's own content, so in a way this is more of the backbone of the project. Here is a quick example I've drawn up from a top down view, it has the object names and connector names shown so you can see the way I've designed it to work, currently in a tile based way -

I got the basic part of the selection code working, where it'll take an object, look up all connectors, pick one, look up all objects with matching connectors, and pick one, to have a seamless transition. However, I realised this is only useful for connecting to a single block, and it'd cause problems if you had any more, and that having more makes it a whole lot more complicated.

So, if there is 1 adjacent block, all that needs to be done is pick an side. If 'x' is chosen, just say that is connected to 'connector1', the code searches 'connector1' for all objects using it, chooses one, and places it in the correct place.
Now, if there are 2 adjancent blocks, it needs to find something that matches both connectors either side. If the sides are 'x' and 'y', and the connectors are 'xconnector' and 'yconnector', it needs to search for any block that uses both 'xconnector' and 'yconnector' with the two sides next to each other, meaning it could be xy, -xy, x-y, -x-y, either normal or mirrored, so there are 8 possible matching combinations.
However, it could be a lot more complicated, especially with 3 or 4 adjacent blocks, so I need to write something that would handle any value thrown at it

So basically, I hope I've explained it well enough, but it has gone slightly over my head so I could do with a little help if anyone has any idea about it :)

If it will help, here are sections of my current code, an example stored list is in the bottom link:
Add/remove object to list:
Choose connected edge (works with 1 side):
Output stored objects (for knowing what's going on):

share|improve this question
Your terminology is really unclear I'm afraid -- I was completely surprised by the linked image! E.g. "where you make an object, and with each side (x,y,-x,-y), define an 'edge'" -- after I got past the idea that "(x,y,-x,-y)" was trying to specify the endpoints of a line segment, this suggests that an "object" has 4 "edges". But the only way this would make sense is if "object" = "tile", which is what I originally thought, but I think you mean an object to be something like "a river" or "a road". – j_random_hacker Jul 3 '14 at 19:11
So yeah, I've updated the image and attempted to improve the terminology a little, and you're entirely correct with the tile idea there, sorry I didn't explain it well enough, the river idea was just to show different variations of the block connecting together through the 'river' connector. – Peter Jul 3 '14 at 19:42
Don't mean to nitpick, but by "where it'll take an object, look up all connectors, pick one, look up all objects with matching connectors" I guess you mean "where it'll take an object that already occupies one or more placed tiles but is not yet complete, look up all connectors on tiles which that object occupies and which don't already border another tile, pick one, look up all tile types with matching connectors"... – j_random_hacker Jul 3 '14 at 22:02
Anyway I think you're right -- I would build 15 lists of tiles, 1 for each valid combination of {neighbour present, neighbour absent} for all 4 sides (there are 16 combinations in total, but you will never be trying to add a tile that is not adjacent to a neighbouring tile on any side). If you order the connectors in some way (it can be totally arbitrary, e.g. by assigning different strings or integers to them) and keep each list sorted (see upcoming comment) then you can binary-search these lists to quickly find the valid tiles. – j_random_hacker Jul 3 '14 at 22:10
Your 15 lists will have various numbers (from 1 to 4) of connector constraints. You'll need a multi-key (lexicographic) sort to handle these -- e.g. in the list for "x present, -y present, y present, rest absent", every element will consist of an array of 3 connectors describing its constraints, plus the description of the tile itself, while in the list for "-y present, rest absent" every element will consist of a single connector "constraint" plus the description of the tile itself. – j_random_hacker Jul 3 '14 at 22:15

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