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test-pseudoprime_search.pl
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test-pseudoprime_search.pl
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#!/usr/bin/perl
use 5.020;
use warnings;
use strict;
use ntheory qw(:all);
use experimental qw(signatures);
use List::Util qw(uniqnum);
use File::Find qw(find);
use Math::GMPz;
use Math::AnyNum qw(prod);
use Math::Prime::Util::GMP qw(is_euler_pseudoprime);
sub is_absolute_euler_pseudoprime ($n) {
is_carmichael($n) and vecall { (($n-1)>>1) % ($_-1) == 0 } factor($n);
}
my $N = 16;
my $P = nth_prime($N);
my $MAX = ~0;
my @primes_bellow = @{primes($P)};
#~ my $n = 1;
#~ my $P = 2;
my @primes = (2);
sub non_residue {
my ($n) = @_;
foreach my $p (@primes) {
sqrtmod($p, $n) // return $p;
}
return -1;
}
#~ foroddcomposites {
#~ my $k = $_;
#~ #if (powmod($q^((k-1)/2) == -1 and non_residue($k) == $P) {
#~ if (powmod($P, ($k-1)>>1, $k) == $k-1) {
#~ my $q = non_residue($k);
#~ if ($q == $P) {
#~ say $k;
#~ $P = next_prime($P);
#~ push @primes, $P;
#~ exit if $P == 13;
#~ }
#~ }
#~ } 1e9;
#~ __END__
sub isok {
my ($k) = @_;
my $w = ($k-1)>>1;
vecall { powmod($_, $w, $k) == (kronecker($_, $k) % $k) } 1..$P;
}
# Carmichael numbers of the form (6*k+1)*(12*k+1)*(18*k+1), where 6*k+1, 12*k+1 and 18*k+1 are all primes.
# Carmichael numbers of the form C = (30n-p)*(60n-(2p+1))*(90n-(3p+2)), where n is a natural number and p, 2p+1, 3p+2 are all three prime numbers.
# Numbers of the form: (6*m + 1) * (12*m + 1) * Product_{i=1..k-2} (9 * 2^i * m + 1), where k >= 3, with the condition that each of the factors is prime and that m is divisible by 2^(k-4).
foreach my $k(1..1e7) {
my $x = 6*$k+1;
my $y = 12*$k + 1;
my $z = 18*$k+1;
#my $w = 9 * 2**2 * $k+1;
if (is_prime($x) and is_prime($y) and is_prime($z)
#and is_prime($w)
) {
my $n = prod($x, $y, $z);
if (isok($n)) {
say "[$k] -> a($N) <= $n";
}
}
}
__END__
#~ #foreach my $k(1..1e6) {
#~ $| = 1;
#~ #for (my $k = 3; $k <= 1e9; $k += 2) {
#~ foroddcomposites {
#~ my $k = $_;
#~ #if (not is_prime($k) and isok($k)) {
#~ if (isok($k)) {
#~ print($k, ", ");
#~ if (not isok_stronger($k)) {
#~ die "Counter-example: $k";
#~ }
#~ }
#~ } 1e9;
#~ __END__
my %seen;
sub process_file {
my ($file) = @_;
open my $fh, '<', $file;
while (<$fh>) {
next if /^\h*#/;
/\S/ or next;
my $n = (split(' ', $_))[-1];
$n || next;
#if ($n > $MAX or $n <= 2) {
# next;
#}
#~ if (length($n) > 30) {
#~ next;
#~ }
#~ if ($n < 14469841 or $n > $MAX) {
#~ next;
#~ }
if ($n < ~0) {
next;
}
#if ($n < 619440406020833) {
# next;
#}
#if ($n < 1.7 * 10**16) {
#~ next;
#~ }
#~ if ($n > ~0) {
#~ next;
#~ }
#~ if ($n > 10**8) {
#~ next;
#~ }
#if ($n > ~0) {
#if (length($n) > 30) {
# next;
#}
next if $seen{$n}++;
if ($n > ~0) {
$n = Math::GMPz->new("$n");
}
#next if is_prime($n);
#if (isok_b($n)) {
# if (not is_absolute_euler_pseudoprime($n) and isok_12_may($n) ) {
# say "Testing: $n";
#if (isok_12_may($n) and not is_carmichael($n)) {#not isok_12_may_stronger($n)) {
# if (isok_12_may($n) and not isok_12_may_stronger($n)) {# not is_carmichael($n)) {
if (isok($n)) {
#say "Counter-example: $n";
say "a($N) = $n";
if ($n < $MAX) {
$MAX = $n;
}
#last if ($n > 15851273401);
#$MAX = $n;
# if (not isok_stronger($n)) {
# die "Counter-example: $n";
# }
#~ if ($n < $MAX) {
#~ $MAX = $n;
#~ say "New record: $n";
#~ }
}
}
close $fh;
}
my $psp = "/home/swampyx/Other/Programare/experimental-projects/pseudoprimes/oeis-pseudoprimes";
find({
wanted => sub {
if ( /\.txt\z/) {
#say "Processing $_";
process_file($_);
}
},
no_chdir => 1,
} => $psp);