I am currently working on a 2D grid based sandbox type game. Technically its 3D as the map is a 3 dimensional array with grid tiles being able to be placed behind each other. It is however rendered in 2D. All scripts in the game will need to be quite efficient as I am looking to release it for android.
The game will have a major wiring mechanic that allows players to connect machines up to electrical sources using wire. I need an efficient way to calculate all entities connected by the wire for every circuit.
The only failsafe way I can think of is using a flood fill algorithm to spread out from one point and record all connected objects, but I feel this would be too inefficient for an android app.
Here is some information on the structure of the game and the wire.
- The game is being written in java.
- All objects are currently static.
- Every object is held in an array that reflects the objects position. Adjacent objects and their variables can be accessed simply be referencing the x/y values in the array.This means adjacent blocks can be updated as needed.
- Wire can be placed an removed at will by the player, and may follow any pattern.
- Wire can connect on all x/y/z axis' to other wire and machinery.
- Certain objects will output power and others will use power.
Im currently thinking along the lines of having wireGroup objects that contain all connected objects for a group of wires including the wires themselves. Each wire object would contain the wireGroup ID allowing new wires(and machines) to be easily added to the wireGroup.
All I really need is a way to detect connected objects when a piece of wire is removed. Detecting connected objects when it is being placed is simple: Just add any machinery next to the new wire to the list in the adjacent wire's wireGroup.
The problem comes about when removing wire. Since their may be 7 or 8 unique wire paths connecting two objects together, it is difficult to find the effect of removing one wire.
Here you can see that no changes will take place to the connected objects.
And here the wireGroup will be split into two wireGroups, one containing the blue and bottom white, and one containing the two whites.
Even if someone can come up with a 2D only algorithm, that would still be fantastic.
I'm sorry If I've missed anything important, please do tell me so I can remedy it.