//******************************************************************************
//
// File: Sieve.java
// Package: edu.rit.hyb.prime
// Unit: Class edu.rit.hyb.prime.Sieve
//
// This Java source file is copyright (C) 2008 by Alan Kaminsky. All rights
// reserved. For further information, contact the author, Alan Kaminsky, at
// ark@cs.rit.edu.
//
// This Java source file is part of the Parallel Java Library ("PJ"). PJ is free
// software; you can redistribute it and/or modify it under the terms of the GNU
// General Public License as published by the Free Software Foundation; either
// version 3 of the License, or (at your option) any later version.
//
// PJ is distributed in the hope that it will be useful, but WITHOUT ANY
// WARRANTY; without even the implied warranty of MERCHANTABILITY or FITNESS FOR
// A PARTICULAR PURPOSE. See the GNU General Public License for more details.
//
// Linking this library statically or dynamically with other modules is making a
// combined work based on this library. Thus, the terms and conditions of the
// GNU General Public License cover the whole combination.
//
// As a special exception, the copyright holders of this library give you
// permission to link this library with independent modules to produce an
// executable, regardless of the license terms of these independent modules, and
// to copy and distribute the resulting executable under terms of your choice,
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// module which is not derived from or based on this library. If you modify this
// library, you may extend this exception to your version of the library, but
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// exception statement from your version.
//
// A copy of the GNU General Public License is provided in the file gpl.txt. You
// may also obtain a copy of the GNU General Public License on the World Wide
// Web at http://www.gnu.org/licenses/gpl.html.
//
//******************************************************************************
package edu.rit.hyb.prime;
import java.io.IOException;
/**
* Class Sieve provides an object for finding prime numbers using the Sieve of
* Eratosthenes. A sieve is an array of Boolean flags, of a certain length,
* starting at a certain lower bound index. The flag at index p is true
* if p is a prime number and is false otherwise.
*
* @author Alan Kaminsky
* @version 05-Jun-2008
*/
public class Sieve
{
// Hidden data members.
private boolean[] isPrime;
private long lb;
private int len;
// Padding to avert cache interference.
private long p0, p1, p2, p3, p4, p5, p6, p7;
private long p8, p9, pa, pb, pc, pd, pe, pf;
// Exported constructors.
/**
* Construct a new sieve object.
*
* @param lb Lower bound index. Assumed to be a nonnegative even number.
* @param len Length. Assumed to be a nonnegative even number.
*/
public Sieve
(long lb,
int len)
{
this.isPrime = new boolean [len+128]; // Padding
this.lb = lb;
this.len = len;
}
// Exported operations.
/**
* Get this sieve's lower bound index.
*
* @return Lower bound index.
*/
public long lb()
{
return this.lb;
}
/**
* Set this sieve's lower bound index.
*
* @param lb Lower bound index. Assumed to be a nonnegative even number.
*/
public void lb
(long lb)
{
this.lb = lb;
}
/**
* Get this sieve's length.
*
* @return Length.
*/
public long length()
{
return this.len;
}
/**
* Set this sieve's length.
*
* @param len Length. Assumed to be a nonnegative even number.
*/
public void len
(int len)
{
this.isPrime = new boolean [len+128]; // Padding
this.len = len;
}
/**
* Initialize this sieve. Afterwards, all even-numbered flags are false and
* all odd-numbered flags are true.
*/
public void initialize()
{
for (int i = 1; i < len; i += 2) isPrime[i] = true;
if (lb == 0) isPrime[1] = false; // 1 is not a prime
}
/**
* Sieve out the given prime. Afterwards, all flags corresponding to
* multiples of the given prime are false. It is assumed that p is
* an odd prime and that all multiples of smaller primes have previously
* been sieved out.
*
* @param p Prime to sieve out.
*
* @return True if sieving with further primes is required, false
* otherwise.
*/
public boolean sieveOut
(long p)
{
// If p^2 is beyond the end of the array, report that further sieving is
// not required.
long psqr = p*p;
if (psqr - lb >= len) return false;
// Find the first odd multiple of p greater than or equal to lb.
long m = (lb + p - 1) / p;
if ((m & 1) == 0) ++ m;
long mp = m*p;
// Sieving begins at p^2 or mp, whichever is larger.
mp = Math.max (mp, psqr);
// Set all odd multiples of p to false and report that further sieving
// is required.
long two_p = 2*p;
for (long i = mp - lb; i < len; i += two_p)
{
isPrime[(int) i] = false;
}
return true;
}
/**
* Sieve out all primes returned by the given iterator. It is assumed that
* the iterator returns a sequence of the odd primes in ascending
* order (3, 5, 7, 11, . . .). Sieving continues until no further sieving is
* required or until the end of the iterator's sequence of primes, whichever
* comes first.
*
* @param iterator Iterator for a sequence of odd primes.
*
* @exception IOException
* Thrown if an I/O error occurred.
*/
public void sieveOut
(LongIterator iterator)
throws IOException
{
long p;
initialize();
while ((p = iterator.next()) != 0 && sieveOut (p));
}
/**
* Determine if the given number is prime. It is assumed that all primes
* smaller than p have been sieved out.
*
* @param p Number to test.
*
* @return True if p is prime, false otherwise.
*/
public boolean isPrime
(long p)
{
return isPrime[(int)(p - lb)];
}
/**
* Obtain an iterator for the primes in this sieve. The iterator returns a
* sequence of the numbers whose flags are true in this sieve.
*
* @return Iterator.
*/
public LongIterator iterator()
{
return new LongIterator()
{
private int i = 0;
// Padding to avert cache interference.
private long p0, p1, p2, p3, p4, p5, p6, p7;
private long p8, p9, pa, pb, pc, pd, pe, pf;
public long next()
{
do ++ i; while (i < len && ! isPrime[i]);
return i < len ? lb + i : 0;
}
public void close()
{
}
};
}
}