# Packing problem revisited

I'm developing a game and I found a problem that I have to solve to handle the layout of a component which resembles me a packing problem.

To summarize what I need to do suppose I've got a space similar to the following one:

``````+------------+---------+------------+
| 0          | 1       | 2          |
|            |         |            |
|            |         |            |
|            |         |            |
+------------+---------+------------+
| 3          | 4       | 5          |
|            |         |            |
|            |         |            |
+------------+---------+------------+
| 6          | 7       | 8          |
|            |         |            |
|            |         |            |
|            |         |            |
+------------+---------+------------+
``````

in which every corner cell is 4x4 while central one is 3x3 (so that remaining ones are 3x4 and 4x3). Then I have a set of elements to place inside these blocks that can vary from 1x1 to 3x3 (I don't think any 4x4 is needed yet but it shouldn't change anything). Of course these elements cannot cross the lines and must lay entirely within one single block.

Which could be the best way to allocate them? Assuming that I prefer not to have them all stickied together if is not necessary (eg. do not place two elements together if there's enough room around to place them apart). I'm looking for a simple algorithm, also because the situation is quite limited..

Bonus question: assuming other blocks in addition to these 9 (maybe other 3-4) how could I prioritize these compared to the new ones? (I mean just doesn't use the additional block until a fill threshold has been reached)..

Of course I'm looking for the general idea, no implementation :)

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Is rotating the elements allowed/desirable if it produces better results? –  Jon Dec 23 '10 at 14:17
no, it is actually unallowed.. if an element to be placed is 2x3 then it must be placed that way and not 3x2.. –  Jack Dec 23 '10 at 14:20
How does the probability distribution of the block types (1x1, 2x2, 3x3, and maybe 4x4) look like? An optimal solution depends on this. And, thus, whether 4x4 blocks have to be considered or not, indeed affects an optimal solution. –  Flinsch Dec 23 '10 at 14:46
I have a fixed sets of elements but not all of them will be placed inside the layout. Just to let you understand: they are buildings of a city and this layout is the city layout, of course I know the list of every building available but not which of them will be inside a specific city (since they depends on what the player builds there). –  Jack Dec 23 '10 at 14:50