#!/usr/bin/perl -w use Test; use strict; my $count; BEGIN { $| = 1; if ($^O eq 'os390') { print "1..0\n"; exit(0) } # test takes too long there unshift @INC, '../lib'; # for running manually my $location = $0; $location =~ s/mbi_rand.t//; unshift @INC, $location; # to locate the testing files chdir 't' if -d 't'; $count = 128; plan tests => $count*2; } use Math::BigInt; my $c = 'Math::BigInt'; my $length = 128; # If you get a failure here, please re-run the test with the printed seed # value as input: perl t/mbi_rand.t seed my $seed = ($#ARGV == 0) ? $ARGV[0] : int(rand(65537)); print "# seed: $seed\n"; srand($seed); my ($A,$B,$As,$Bs,$ADB,$AMB,$la,$lb); my $two = Math::BigInt->new(2); for (my $i = 0; $i < $count; $i++) { # length of A and B $la = int(rand($length)+1); $lb = int(rand($length)+1); $As = ''; $Bs = ''; # we create the numbers from "patterns", e.g. get a random number and a # random count and string them together. This means things like # "100000999999999999911122222222" are much more likely. If we just strung # together digits, we would end up with "1272398823211223" etc. while (length($As) < $la) { $As .= int(rand(100)) x int(rand(16)); } while (length($Bs) < $lb) { $Bs .= int(rand(100)) x int(rand(16)); } $As =~ s/^0+//; $Bs =~ s/^0+//; $As = $As || '0'; $Bs = $Bs || '0'; # print "# As $As\n# Bs $Bs\n"; $A = $c->new($As); $B = $c->new($Bs); # print "# A $A\n# B $B\n"; if ($A->is_zero() || $B->is_zero()) { ok (1,1); ok (1,1); next; } # check that int(A/B)*B + A % B == A holds for all inputs # $X = ($A/$B)*$B + 2 * ($A % $B) - ($A % $B); ($ADB,$AMB) = $A->copy()->bdiv($B); print "# ". join(' ',Math::BigInt::Calc->_base_len()),"\n" unless ok ($ADB*$B+$two*$AMB-$AMB,$As); # swap 'em and try this, too # $X = ($B/$A)*$A + $B % $A; ($ADB,$AMB) = $B->copy()->bdiv($A); print "# ". join(' ',Math::BigInt::Calc->_base_len()),"\n" unless ok ($ADB*$A+$two*$AMB-$AMB,$Bs); }