apcalc-common 2.12.4.4-2 / usr / share / calc / help / ptest

NAME
    ptest - probabilistic test of primality

SYNOPSIS
    ptest(n [,count [,skip]])

TYPES
    n		integer
    count	integer with absolute value less than 2^24, defaults to 1
    skip	integer, defaults to 1

    return	0 or 1

DESCRIPTION
    In ptest(n, ...) the sign of n is ignored; here we assume n >= 0.

    ptest(n, count, skip) always returns 1 if n is prime; equivalently,
    if 0 is returned then n is not prime.

    If n is even, 1 is returned only if n = 2.

    If count >= 0 and n < 2^32, ptest(n,...) essentially calls isprime(n)
    and returns 1 only if n is prime.

    If count >= 0, n > 2^32, and n is divisible by a prime <= 101, then
    ptest(n,...) returns 0.

    If count is zero, and none of the above cases have resulted in 0 being
    returned, 1 is returned.

    In other cases (which includes all cases with count < 0), tests are
    made for abs(count) bases b:  if n - 1 = 2^s * m where m is odd,
    the test for base b of possible primality is passed if b is a
    multiple of n or b^m = 1 (mod n) or b^(2^j * m) = n - 1 (mod n) for
    some j where 0 <= j < s; integers that pass the test are called
    strong probable primes for the base b; composite integers that pass
    the test are called strong pseudoprimes for the base b; Since
    the test for base b depends on b % n, and bases 0, 1 and n - 1 are
    trivial (n is always a strong probable prime for these bases), it
    is sufficient to consider 1 < b < n - 1.

    The bases for ptest(n, count, skip) are selected as follows:

	skip = 0:	random in [2, n-2]
	skip = 1:	successive primes 2, 3, 5, ...
			not exceeding min(n, 65536)
	otherwise:	successive integers skip, skip + 1, ...,
			skip+abs(count)-1

    In particular, if m > 0, ptest(n, -m, 2) == 1 shows that n is either
    prime or a strong pseudoprime for all positive integer bases <= m + 1.
    If 1 < b < n - 1, ptest(n, -1, b) == 1 if and only if n is
    a strong pseudoprime for the base b.

    For the random case (skip = 0), the probability that any one test
    with random base b will return 1 if n is composite is always
    less than 1/4, so with count = k, the probability is less
    than 1/4^k.	 For most values of n the probability is much
    smaller, possible zero.

RUNTIME
    If n is composite, ptest(n, 1, skip) is usually faster than
    ptest(n, -1, skip), much faster if n is divisible by a small
    prime.  If n is prime, ptest(n, -1, skip) is usually faster than
    ptest(n, 1, skip), possibly much faster if n < 2^32, only slightly
    faster if n > 2^32.

    If n is a large prime (say 50 or more decimal digits), the runtime
    for ptest(n, count, skip) will usually be roughly K * abs(count) *
    ln(n)^3 for some constant K.  For composite n with
    highbit(n) = N, the compositeness is detected quickly if n is
    divisible by a small prime and count >= 0; otherwise, if count is
    not zero, usually only one test is required to establish
    compositeness, so the runtime will probably be about K * N^3.   For
    some rare values of composite n, high values of count may be
    required to establish the compositeness.

    If the word-count for n is less than conf("redc2"), REDC algorithms
    are used in evaluating ptest(n, count, skip) when small-factor
    cases have been eliminated.	 For small word-counts (say < 10)
    this may more than double the speed of evaluation compared with
    the standard algorithms.

EXAMPLE
    ; print ptest(103^3 * 3931, 0), ptest(4294967291,0)
    1 1

    In the first example, the first argument > 2^32; in the second the
    first argument is the largest prime less than 2^32.

    ; print ptest(121,-1,2), ptest(121,-1,3), ptest(121,-2,2)
    0 1 0

    121 is the smallest strong pseudoprime to the base 3.

    ; x = 151 * 751 * 28351
    ; print x, ptest(x,-4,1), ptest(x,-5,1)
    3215031751 1 0

    The integer x in this example is the smallest positive integer that is
    a strong pseudoprime to each of the first four primes 2, 3, 5, 7, but
    not to base 11.  The probability that ptest(x,-1,0) will return 1 is
    about .23.

    ; for (i = 0; i < 11; i++) print ptest(91,-1,0),:; print;
    0 0 0 1 0 0 0 0 0 0 1

    The results for this example depend on the state of the
    random number generator; the expectation is that 1 will occur twice.

    ; a = 24444516448431392447461 * 48889032896862784894921;
    ; print ptest(a,11,1), ptest(a,12,1), ptest(a,20,2), ptest(a,21,2)
    1 0 1 0

    These results show that a is a strong pseudoprime for all 11 prime
    bases less than or equal to 31, and for all positive integer bases
    less than or equal to 21, but not for the bases 37 and 22.	The
    probability that ptest(a,-1,0) (or ptest(a,1,0)) will return 1 is
    about 0.19.

LIMITS
    none

LINK LIBRARY
    BOOL qprimetest(NUMBER *n, NUMBER *count, NUMBER *skip)
    BOOL zprimetest(ZVALUE n, long count, long skip)

SEE ALSO
    factor, isprime, lfactor, nextcand, nextprime, prevcand, prevprime,
    pfact, pix

## Copyright (C) 1999-2006  Landon Curt Noll
##
## Calc is open software; you can redistribute it and/or modify it under
## the terms of the version 2.1 of the GNU Lesser General Public License
## as published by the Free Software Foundation.
##
## Calc 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 Lesser General
## Public License for more details.
##
## A copy of version 2.1 of the GNU Lesser General Public License is
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## 51 Franklin Street, Fifth Floor, Boston, MA  02110-1301, USA.
##
## @(#) $Revision: 30.2 $
## @(#) $Id: ptest,v 30.2 2007/09/01 19:53:15 chongo Exp $
## @(#) $Source: /usr/local/src/cmd/calc/help/RCS/ptest,v $
##
## Under source code control:	1996/02/25 00:27:43
## File existed as early as:	1996
##
## chongo <was here> /\oo/\	http://www.isthe.com/chongo/
## Share and enjoy!  :-)	http://www.isthe.com/chongo/tech/comp/calc/