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I have a list of some objects and I want to iterate through them in a specific sequence for a particular number as returned by the following function. What the following does is, removes each number based on the modulo of the hash number to the list size and generates a sequence.

def genSeq(hash,n):
    l = range(n)
    seq = []
    while l:
        ind = hash % len(l)
        del l[ind]
    return seq

Eg: genSeq(53,5) will return [3, 1, 4, 2, 0]

I am presenting the algo in python for easy understanding. I am supposed to code in c++. The complexity in this form in O(n^2) both for vector and list. (we either pay for removing or for access). Can this be made any better ?

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Using an appropriate datastructure for your l theoretically a log n performance is possible which would then be n log n in total. Nevertheless I doubt that this performance gain is big unless your n is really large. –  Howard Dec 29 '11 at 16:04
so, you want to shuffle n numbers, right ? –  Zonko Dec 29 '11 at 16:07
which datastructure would be suitable? How is it log n? –  balki Dec 29 '11 at 16:07
@Zonko yes. but in a sequence based on a argument(hash) –  balki Dec 29 '11 at 16:08
@balki For example with a balanced binary tree. –  Howard Dec 29 '11 at 16:11

3 Answers 3

up vote 1 down vote accepted

A skip list would give you O(log n) access and removal. So your total traversal time would be O(n log n).

I'd like to think there is a linear solution, but nothing jumps out at me.

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The sequence [hash % (i+1) in range(len(l))] can be seen as a number in factoradic. There is a bijection between permutations and factoradic numbers.

The mapping from factoradic numbers to permutations is described in the top answer under the section "Permuting a list using an index sequence". Unfortunately the algorithm provided is quadratic. However there is a commenter which points to a data-structure which would make the algorithm O(nlog(n)).

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You should not delete from your vector, but swap with the end and decrease a fill pointer. Think about the Fisher-Yates shuffle.

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That's not going to work because it will change the order of items. You wouldn't get the same order as if you used his algorithm. –  Jim Mischel Dec 29 '11 at 19:42

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