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Question spawned from this one. The problem can be formulated as follows:

Given two positive integers n and m, with m <= n, is there a way to find a suite of numbers, which cycles and covers all possible values from 0 to n?

As a basic example, if we take 3 as a number, for whatever number current between 0 and 3, we can compute the next value as:

next = (current+3) % 4

This will cycle. For instance: 1 -> 0 -> 3 -> 2 -> 1 etc. I found this solution by "chance" and it is even general ((i + n) % (n + 1) for any n), I cannot prove it mathematically. And it is a little too obvious.

Are there better ways to generate such a permutation?

share|improve this question
What exactly do you need m for? – proskor Jan 16 '13 at 15:55
@proskor let's say, the initial value -- which can be determined randomly – fge Jan 16 '13 at 15:56
what do you mean find a "suite of numbers" which cycles and covers from 0 to n? why not just use the numbers 0...n ? Do you want it to appear random? If so I would rewrite the question as "how to generate a permutation of 0..n efficiently" – Iftah Jan 16 '13 at 15:58
Well, for example, incrementing the current value and calculating the remainder of the division will cycle over all values from 0 to n-1. – proskor Jan 16 '13 at 15:58
so the formula is next = (current + n) % (n+1) ? ... could be (current + 1) % (n+1) which is an obvious cycle (or I don't understand the question / I don't see its point) – Vinze Jan 16 '13 at 15:59
up vote 3 down vote accepted

I'm not sure what you intend m in the question to refer to, or how you're defining "a suite of numbers"). However, one way of getting a cycle of number is to use a recursion (or iteration) of the form:

next = f(current)

for some function f. For example, linear congruential RNGs use the iteration:

x = ( a · x + c ) mod m   where 0 < a, c < m

They don't always produce all values from 0 to m-1, but under certain circumstances they do:

c and m are relatively prime

a - 1 is divisible by every prime factor of m (not including m)

if m is divisible by 4, a - 1 is divisible by 4.

(This is the Hull-Dobell theorem.)

Note that a, c == 1 satisfies the above criteria for any m. Futhermore, if m is prime, any values of a and c satisify the criteria, and if m is a power of 2, then the criteria are satisfied by any a, c such that a == 1 mod 4 and c == 1 mod 2. However, for certain values of m (eg. 6), the only value of a which will work is 1.

This might not qualify as "stateless", but I don't think that there is any strictly stateless solution; for example, you might look for some function f such that:

f(0), f(1),... f(m-1)

is a permutation of

0, 1, ..., m-1

so that you could generate the cycle by calling f(i) for successive values of i. But that's still a state, since you have to remember the last value of i you used,

share|improve this answer
m is supposed to be the starting point, it can be any number between 0 and n. As to "suite", well, I guess I could have said "sequence". – fge Jan 16 '13 at 17:10
@fge, with linear congruential generation, if you've got a valid (a,c) pair, you can start with any value in the range [0, n), since the cycle is complete. Other than that, I tried to explore what "stateless" might mean in an edit. – rici Jan 16 '13 at 17:11

Incrementing each subsequent number by any number that does not share a common prime divisor with (n-m+1) would cover the sequence (e.g. for the sequence [2-11] (10 numbers) incrementing by 3, 7, or 9 would work but 2, 4, 5, 6, and 8 would not because they share a common divisor (2 and/or 5)


I took out the shuffling idea since it seems that you want to increment by the same number each time. If you want a truly "random" sequence that has m at the first element just take m out and place it at the beginning. I'm not sure how that helps you, though.

share|improve this answer
And so you would replicate this for [0..m-1] as well? – fge Jan 16 '13 at 16:22
Sorry, I misread your question. I'll revise my answer. – D Stanley Jan 16 '13 at 16:25
Well, actually, the thing is, I do not really want to increment by the same number each time, this makes it too "easy", so to speak. – fge Jan 16 '13 at 16:38
@fge if it's going to be truly stateless, the operation needs to be the same every time, doesn't it? – AakashM Jan 16 '13 at 16:44
@AakashM well, that is what I wonder... – fge Jan 16 '13 at 16:45

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