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So, I have the situation that I wish to map the powerset of a set to a unique number (index) for each of its elements, and then associate this number to a non-unique value in a map or a list. I want this in order to not have to store all the subsets explicitly, but only the unique number associated with them. If a linear-time (preferably, but I suppose I can afford a higher degree polynomial if it is necessary) algorithm exists that uniquely produces a number from the elements of the subsets, that would be great to have. From intuition, I think such an algorithm could exist, using some summing or convolution functions on the elements of the subset.

In formal terms, I have a universe U = {1,2,3,...,n} of which I need all subsets. There are 2^n such subsets. I have a function f mapping from a subset X to a number y, ie f(X)=y. y is a non-unique number.

Now, I need in my program to be able to move from one subsets X value to another subsets Y value, where Y = X - {k} for some k ϵ X. So if there was an algorithm where I could calculate the unique identifier for Y from its elements, then I only need to remove k and use the (remaining) elements of X to find it, instead of searching through a list of stored subsets, which requires searching, comparing AND the memory cost of storing each subset.

So, does anyone know if such an algorithm exists?

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Can you make your question clear? I don't under your last paragraph – banarun Jul 4 '13 at 13:03
I appreciate your attempt to make the question clear.but unfortunately it's still out of grasp.Can you explain it with an example?The last para example is sort of difficult to understand – Aravind Jul 4 '13 at 13:05
The standard approach is to use a binary number to represent sets. For example the binary number 00001011 would represent the set that contains the 1st, 2nd, and 4th elements from U. – Peter de Rivaz Jul 4 '13 at 13:08
up vote 3 down vote accepted

By definition, any unique identifier would need as many bits as there are elements in your set U. So if the elements in U are fixed and ordered, you could easily compute a bit vector from the elements of any subset Y (only the bits corresponding to elements in the set Y are set) and covert it to a number. Of course, depending on the maximal size of U, you might need some infinite-precision data type.

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This looks like a smart approach. And I dont need to sort the subsets. Each element e would be converted to 2^e and then all summed up. – Mats_SX Jul 4 '13 at 14:02

Power sets might be the key to solving your issue. See here some modification might be necessary tu support 2^n

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