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one way to get that is for the natural numbers (1,..n) we factorise each and see if they have any repeated prime factors , but that would take a lot of time for large n. So is there any better way to get the square-free numbers from 1,,n ?

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Do you mean just getting rid of square numbers or are you trying to remove any number that has a square number as a factor too? Talking about "any repeated prime factors" implies the latter but the question itself implies the former. –  Chris Mar 15 '11 at 14:38

7 Answers 7

up vote 9 down vote accepted

You could use erastophenes sieve's modified version:

Take a bool array 1..n; precalc all squares that are less than n; that's O(sqrt(N));

foreach square and its multiples make the bool array entry false...

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I have found a better algorithm to calculate how many square-free numbers in a interval such as [n,m]. We can get prime that less than sqrt(m), then we should minus the multiples of those prime's square, then plus the multiples of each two primes' product less than m, then minus tree ,then plus four.... at the last we will get the answer. Certainly it runs in O(sqrt(m)).

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Better than which one? I think you could try to explain what you mean a bit better. Maybe some formal approach, or example? –  angainor Sep 21 '12 at 21:53

Check out the section "Basic algorithm: the sieve of Eratosthenes", which is what Armen suggested. The next section is "Improvements of the algorithm".

Also, FWIW, the Moebius function and square-free numbers are related.

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Googling a little bit I've found this page where a J program is explained. A part from the complex syntax, the algorithm allows to check whether a number is square-free or not:

  • generate a list of perfect square PS,

  • take your number N and divide it by the numbers in the list PS

  • if there is only 1 whole number in the list, then N is square-free

You could implement the algorithm in your preferred language and iterate it on any number from 1 to n.

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The most direct thing that comes to mind is to list the primes up to n and select at most one of each. That's not easy for large n (e.g. here's one algorithm), but I'm not sure this problem is either.

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There is no known polynomial time algorithm for recognizing squarefree integers or for computing the squarefree part of an integer. In fact, this problem may be no easier than the general problem of integer factorization (obviously, if an integer can be factored completely, is squarefree iff it contains no duplicated factors). This problem is an important unsolved problem in number theory because computing the ring of integers of an algebraic number field is reducible to computing the squarefree part of an integer (Lenstra 1992, Pohst and Zassenhaus 1997).

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You should probably look into the sieve of Atkin. Of course this eliminates all non-primes (not just perfect squares) so it might be more work than you need.

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