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I have been trying to solve a 2D variant of this problem: Box stacking problem

The catch is that unlike the original, multiple instances of the same box are not allowed. You can still rotate the 2D rectangles, of course.

There is also a height limit imposed so the tower has to be less than or equal this limit.

The base of a box below another box has to be larger than or equal to (not strictly larger) it.

I've been trying to apply the LIS algorithm and the other restrictions seem to be handled, but I cannot think of how to account for the no duplicates rule.

So my main question is how do you account for the no duplicates rule if you are trying to maximise the height of the stack and keep it below the limit? Thanks


I realised that if you create the two possible rotations for each item like you do for the 3-D variant, this problem becomes very similar to the 0-1 knapsack problem. Since the optimal tower must be built using a subset of this sorted list in order then we have to choose which ones to take. However, I still don't know how to make sure no duplicates are taken. Any help on resolving this? Thanks


I found this link: http://courses.csail.mit.edu/6.006/fall10/handouts/recitation11-19.pdf which on page 4 describes how to solve the single-instance 3D maximum height version, however I think this will not work for the height limit version since it returns the maximum height for each call. Maybe this can be modified to accommodate the height limit?

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Its not clear what the objective is. The most boxes below the limit in a single stack? The normal problem states that the objective is the tallest stack possible, but since we have a "limit" here, then the objective must be different. –  Tyler Durden Feb 14 '13 at 22:06
Yes the objective is still the tallest stack below the height limit. –  William Rookwood Feb 14 '13 at 22:40
@TylerDurden, yes it is. –  William Rookwood Feb 15 '13 at 2:49

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Ok so I found out the solution was just the 0-1 style except with a boolean table after realising that the order is not important since any set of 2D rectangles can be sorted into a tower which abides by the restrictions.

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Can you please explain this in detail –  Nandish A Feb 25 '13 at 18:39

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