#!/usr/bin/perl -w use strict; use Test; BEGIN { $| = 1; chdir 't' if -d 't'; unshift @INC, '../lib'; # for running manually } use Math::BigInt::Calc; BEGIN { my $additional = 0; $additional = 27 if $Math::BigInt::Calc::VERSION > 0.18; plan tests => 80 + $additional; } # testing of Math::BigInt::Calc, primarily for interface/api and not for the # math functionality my $C = 'Math::BigInt::Calc'; # pass classname to sub's # _new and _str my $x = $C->_new(\"123"); my $y = $C->_new(\"321"); ok (ref($x),'ARRAY'); ok (${$C->_str($x)},123); ok (${$C->_str($y)},321); ############################################################################### # _add, _sub, _mul, _div ok (${$C->_str($C->_add($x,$y))},444); ok (${$C->_str($C->_sub($x,$y))},123); ok (${$C->_str($C->_mul($x,$y))},39483); ok (${$C->_str($C->_div($x,$y))},123); ############################################################################### # check that mul/div doesn't change $y # and returns the same reference, not something new ok (${$C->_str($C->_mul($x,$y))},39483); ok (${$C->_str($x)},39483); ok (${$C->_str($y)},321); ok (${$C->_str($C->_div($x,$y))},123); ok (${$C->_str($x)},123); ok (${$C->_str($y)},321); $x = $C->_new(\"39483"); my ($x1,$r1) = $C->_div($x,$y); ok ("$x1","$x"); $C->_inc($x1); ok ("$x1","$x"); ok (${$C->_str($r1)},'0'); $x = $C->_new(\"39483"); # reset ############################################################################### my $z = $C->_new(\"2"); ok (${$C->_str($C->_add($x,$z))},39485); my ($re,$rr) = $C->_div($x,$y); ok (${$C->_str($re)},123); ok (${$C->_str($rr)},2); # is_zero, _is_one, _one, _zero ok ($C->_is_zero($x),0); ok ($C->_is_one($x),0); ok ($C->_is_one($C->_one()),1); ok ($C->_is_one($C->_zero()),0); ok ($C->_is_zero($C->_zero()),1); ok ($C->_is_zero($C->_one()),0); # is_odd, is_even ok ($C->_is_odd($C->_one()),1); ok ($C->_is_odd($C->_zero()),0); ok ($C->_is_even($C->_one()),0); ok ($C->_is_even($C->_zero()),1); # _digit $x = $C->_new(\"123456789"); ok ($C->_digit($x,0),9); ok ($C->_digit($x,1),8); ok ($C->_digit($x,2),7); ok ($C->_digit($x,-1),1); ok ($C->_digit($x,-2),2); ok ($C->_digit($x,-3),3); # _copy $x = $C->_new(\"12356"); ok (${$C->_str($C->_copy($x))},12356); # _zeros $x = $C->_new(\"1256000000"); ok ($C->_zeros($x),6); $x = $C->_new(\"152"); ok ($C->_zeros($x),0); $x = $C->_new(\"123000"); ok ($C->_zeros($x),3); # _lsft, _rsft $x = $C->_new(\"10"); $y = $C->_new(\"3"); ok (${$C->_str($C->_lsft($x,$y,10))},10000); $x = $C->_new(\"20"); $y = $C->_new(\"3"); ok (${$C->_str($C->_lsft($x,$y,10))},20000); $x = $C->_new(\"128"); $y = $C->_new(\"4"); ok (${$C->_str($C->_lsft($x,$y,2))}, 128 << 4); $x = $C->_new(\"1000"); $y = $C->_new(\"3"); ok (${$C->_str($C->_rsft($x,$y,10))},1); $x = $C->_new(\"20000"); $y = $C->_new(\"3"); ok (${$C->_str($C->_rsft($x,$y,10))},20); $x = $C->_new(\"256"); $y = $C->_new(\"4"); ok (${$C->_str($C->_rsft($x,$y,2))},256 >> 4); # _acmp $x = $C->_new(\"123456789"); $y = $C->_new(\"987654321"); ok ($C->_acmp($x,$y),-1); ok ($C->_acmp($y,$x),1); ok ($C->_acmp($x,$x),0); ok ($C->_acmp($y,$y),0); # _div $x = $C->_new(\"3333"); $y = $C->_new(\"1111"); ok (${$C->_str(scalar $C->_div($x,$y))},3); $x = $C->_new(\"33333"); $y = $C->_new(\"1111"); ($x,$y) = $C->_div($x,$y); ok (${$C->_str($x)},30); ok (${$C->_str($y)},3); $x = $C->_new(\"123"); $y = $C->_new(\"1111"); ($x,$y) = $C->_div($x,$y); ok (${$C->_str($x)},0); ok (${$C->_str($y)},123); # _num $x = $C->_new(\"12345"); $x = $C->_num($x); ok (ref($x)||'',''); ok ($x,12345); # _sqrt $x = $C->_new(\"144"); ok (${$C->_str($C->_sqrt($x))},'12'); # _fac $x = $C->_new(\"0"); ok (${$C->_str($C->_fac($x))},'1'); $x = $C->_new(\"1"); ok (${$C->_str($C->_fac($x))},'1'); $x = $C->_new(\"2"); ok (${$C->_str($C->_fac($x))},'2'); $x = $C->_new(\"3"); ok (${$C->_str($C->_fac($x))},'6'); $x = $C->_new(\"4"); ok (${$C->_str($C->_fac($x))},'24'); $x = $C->_new(\"5"); ok (${$C->_str($C->_fac($x))},'120'); $x = $C->_new(\"10"); ok (${$C->_str($C->_fac($x))},'3628800'); $x = $C->_new(\"11"); ok (${$C->_str($C->_fac($x))},'39916800'); # _inc $x = $C->_new(\"1000"); $C->_inc($x); ok (${$C->_str($x)},'1001'); $C->_dec($x); ok (${$C->_str($x)},'1000'); my $BL = Math::BigInt::Calc::_base_len(); $x = '1' . '0' x $BL; $z = '1' . '0' x ($BL-1); $z .= '1'; $x = $C->_new(\$x); $C->_inc($x); ok (${$C->_str($x)},$z); $x = '1' . '0' x $BL; $z = '9' x $BL; $x = $C->_new(\$x); $C->_dec($x); ok (${$C->_str($x)},$z); # should not happen: # $x = $C->_new(\"-2"); $y = $C->_new(\"4"); ok ($C->_acmp($x,$y),-1); # _mod $x = $C->_new(\"1000"); $y = $C->_new(\"3"); ok (${$C->_str(scalar $C->_mod($x,$y))},1); $x = $C->_new(\"1000"); $y = $C->_new(\"2"); ok (${$C->_str(scalar $C->_mod($x,$y))},0); # _and, _or, _xor $x = $C->_new(\"5"); $y = $C->_new(\"2"); ok (${$C->_str(scalar $C->_xor($x,$y))},7); $x = $C->_new(\"5"); $y = $C->_new(\"2"); ok (${$C->_str(scalar $C->_or($x,$y))},7); $x = $C->_new(\"5"); $y = $C->_new(\"3"); ok (${$C->_str(scalar $C->_and($x,$y))},1); # _from_hex, _from_bin ok (${$C->_str(scalar $C->_from_hex(\"0xFf"))},255); ok (${$C->_str(scalar $C->_from_bin(\"0b10101011"))},160+11); # _as_hex, _as_bin ok (${$C->_str(scalar $C->_from_hex( $C->_as_hex( $C->_new(\"128"))))}, 128); ok (${$C->_str(scalar $C->_from_bin( $C->_as_bin( $C->_new(\"128"))))}, 128); # _check $x = $C->_new(\"123456789"); ok ($C->_check($x),0); ok ($C->_check(123),'123 is not a reference'); ############################################################################### # _to_large and _to_small (last since they toy with BASE_LEN etc) exit if $Math::BigInt::Calc::VERSION < 0.19; $C->_base_len(5,7); $x = [ qw/67890 12345 67890 12345/ ]; $C->_to_large($x); ok (@$x,3); ok ($x->[0], '4567890'); ok ($x->[1], '7890123'); ok ($x->[2], '123456'); $C->_base_len(5,7); $x = [ qw/54321 54321 54321 54321/ ]; $C->_to_large($x); ok (@$x,3); ok ($x->[0], '2154321'); ok ($x->[1], '4321543'); ok ($x->[2], '543215'); $C->_base_len(6,7); $x = [ qw/654321 654321 654321 654321/ ]; $C->_to_large($x); ok (@$x,4); ok ($x->[0], '1654321'); ok ($x->[1], '2165432'); ok ($x->[2], '3216543'); ok ($x->[3], '654'); $C->_base_len(5,7); $C->_to_small($x); ok (@$x,5); ok ($x->[0], '54321'); ok ($x->[1], '43216'); ok ($x->[2], '32165'); ok ($x->[3], '21654'); ok ($x->[4], '6543'); $C->_base_len(7,10); $x = [ qw/0000000 0000000 9999990 9999999/ ]; $C->_to_large($x); ok (@$x,3); ok ($x->[0], '0000000000'); ok ($x->[1], '9999900000'); ok ($x->[2], '99999999'); $C->_base_len(7,10); $x = [ qw/0000000 0000000 9999990 9999999 99/ ]; $C->_to_large($x); ok (@$x,3); ok ($x->[0], '0000000000'); ok ($x->[1], '9999900000'); ok ($x->[2], '9999999999'); # done 1;