#!/usr/bin/perl -w use strict; use Test; BEGIN { plan tests => 375; } use Math::BigInt::Calc; my ($BASE_LEN, $AND_BITS, $XOR_BITS, $OR_BITS, $BASE_LEN_SMALL, $MAX_VAL) = Math::BigInt::Calc->_base_len(); print "# BASE_LEN = $BASE_LEN\n"; print "# MAX_VAL = $MAX_VAL\n"; print "# AND_BITS = $AND_BITS\n"; print "# XOR_BITS = $XOR_BITS\n"; print "# IOR_BITS = $OR_BITS\n"; # testing of Math::BigInt::Calc 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($x)||0,0); ok ($C->_is_one($x)||0,0); ok ($C->_str($C->_zero()),"0"); ok ($C->_str($C->_one()),"1"); # _two() and _ten() ok ($C->_str($C->_two()),"2"); ok ($C->_str($C->_ten()),"10"); ok ($C->_is_ten($C->_two()),0); ok ($C->_is_two($C->_two()),1); ok ($C->_is_ten($C->_ten()),1); ok ($C->_is_two($C->_ten()),0); ok ($C->_is_one($C->_one()),1); ok ($C->_is_one($C->_two()),0); ok ($C->_is_one($C->_ten()),0); ok ($C->_is_one($C->_zero()) || 0,0); ok ($C->_is_zero($C->_zero()),1); ok ($C->_is_zero($C->_one()) || 0,0); # is_odd, is_even ok ($C->_is_odd($C->_one()),1); ok ($C->_is_odd($C->_zero())||0,0); ok ($C->_is_even($C->_one()) || 0,0); ok ($C->_is_even($C->_zero()),1); # _len for my $method (qw/_alen _len/) { $x = $C->_new("1"); ok ($C->$method($x),1); $x = $C->_new("12"); ok ($C->$method($x),2); $x = $C->_new("123"); ok ($C->$method($x),3); $x = $C->_new("1234"); ok ($C->$method($x),4); $x = $C->_new("12345"); ok ($C->$method($x),5); $x = $C->_new("123456"); ok ($C->$method($x),6); $x = $C->_new("1234567"); ok ($C->$method($x),7); $x = $C->_new("12345678"); ok ($C->$method($x),8); $x = $C->_new("123456789"); ok ($C->$method($x),9); $x = $C->_new("8"); ok ($C->$method($x),1); $x = $C->_new("21"); ok ($C->$method($x),2); $x = $C->_new("321"); ok ($C->$method($x),3); $x = $C->_new("4321"); ok ($C->$method($x),4); $x = $C->_new("54321"); ok ($C->$method($x),5); $x = $C->_new("654321"); ok ($C->$method($x),6); $x = $C->_new("7654321"); ok ($C->$method($x),7); $x = $C->_new("87654321"); ok ($C->$method($x),8); $x = $C->_new("987654321"); ok ($C->$method($x),9); $x = $C->_new("0"); ok ($C->$method($x),1); $x = $C->_new("20"); ok ($C->$method($x),2); $x = $C->_new("320"); ok ($C->$method($x),3); $x = $C->_new("4320"); ok ($C->$method($x),4); $x = $C->_new("54320"); ok ($C->$method($x),5); $x = $C->_new("654320"); ok ($C->$method($x),6); $x = $C->_new("7654320"); ok ($C->$method($x),7); $x = $C->_new("87654320"); ok ($C->$method($x),8); $x = $C->_new("987654320"); ok ($C->$method($x),9); for (my $i = 1; $i < 9; $i++) { my $a = "$i" . '0' x ($i-1); $x = $C->_new($a); print "# Tried len '$a'\n" unless ok ($C->_len($x),$i); } } # _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 foreach (qw/ 1 12 123 1234 12345 123456 1234567 12345678 123456789/) { $x = $C->_new("$_"); ok ($C->_str($C->_copy($x)),"$_"); ok ($C->_str($x),"$_"); # did _copy destroy original x? } # _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); $x = $C->_new("0"); ok ($C->_zeros($x),0); # _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); $x = $C->_new("6411906467305339182857313397200584952398"); $y = $C->_new("45"); ok ($C->_str($C->_rsft($x,$y,10)),0); # _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); $x = $C->_new("12"); $y = $C->_new("12"); ok ($C->_acmp($x,$y),0); $x = $C->_new("21"); ok ($C->_acmp($x,$y),1); ok ($C->_acmp($y,$x),-1); $x = $C->_new("123456789"); $y = $C->_new("1987654321"); ok ($C->_acmp($x,$y),-1); ok ($C->_acmp($y,$x),+1); $x = $C->_new("1234567890123456789"); $y = $C->_new("987654321012345678"); ok ($C->_acmp($x,$y),1); ok ($C->_acmp($y,$x),-1); ok ($C->_acmp($x,$x),0); ok ($C->_acmp($y,$y),0); $x = $C->_new("1234"); $y = $C->_new("987654321012345678"); ok ($C->_acmp($x,$y),-1); ok ($C->_acmp($y,$x),1); ok ($C->_acmp($x,$x),0); ok ($C->_acmp($y,$y),0); # _modinv $x = $C->_new("8"); $y = $C->_new("5033"); my ($xmod,$sign) = $C->_modinv($x,$y); ok ($C->_str($xmod),'629'); # -629 % 5033 == 4404 ok ($sign, '-'); # _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 foreach (qw/1 12 123 1234 12345 1234567 12345678 123456789 1234567890/) { $x = $C->_new("$_"); ok (ref($x)||'','ARRAY'); ok ($C->_str($x),"$_"); $x = $C->_num($x); ok (ref($x)||'',''); ok ($x,$_); } # _sqrt $x = $C->_new("144"); ok ($C->_str($C->_sqrt($x)),'12'); $x = $C->_new("144000000000000"); ok ($C->_str($C->_sqrt($x)),'12000000'); # _root $x = $C->_new("81"); my $n = $C->_new("3"); # 4*4*4 = 64, 5*5*5 = 125 ok ($C->_str($C->_root($x,$n)),'4'); # 4.xx => 4.0 $x = $C->_new("81"); $n = $C->_new("4"); # 3*3*3*3 == 81 ok ($C->_str($C->_root($x,$n)),'3'); # _pow (and _root) $x = $C->_new("0"); $n = $C->_new("3"); # 0 ** y => 0 ok ($C->_str($C->_pow($x,$n)), 0); $x = $C->_new("3"); $n = $C->_new("0"); # x ** 0 => 1 ok ($C->_str($C->_pow($x,$n)), 1); $x = $C->_new("1"); $n = $C->_new("3"); # 1 ** y => 1 ok ($C->_str($C->_pow($x,$n)), 1); $x = $C->_new("5"); $n = $C->_new("1"); # x ** 1 => x ok ($C->_str($C->_pow($x,$n)), 5); $x = $C->_new("81"); $n = $C->_new("3"); # 81 ** 3 == 531441 ok ($C->_str($C->_pow($x,$n)),81 ** 3); ok ($C->_str($C->_root($x,$n)),81); $x = $C->_new("81"); ok ($C->_str($C->_pow($x,$n)),81 ** 3); ok ($C->_str($C->_pow($x,$n)),'150094635296999121'); # 531441 ** 3 == ok ($C->_str($C->_root($x,$n)),'531441'); ok ($C->_str($C->_root($x,$n)),'81'); $x = $C->_new("81"); $n = $C->_new("14"); ok ($C->_str($C->_pow($x,$n)),'523347633027360537213511521'); ok ($C->_str($C->_root($x,$n)),'81'); $x = $C->_new("523347633027360537213511520"); ok ($C->_str($C->_root($x,$n)),'80'); $x = $C->_new("523347633027360537213511522"); ok ($C->_str($C->_root($x,$n)),'81'); my $res = [ qw/9 31 99 316 999 3162 9999 31622 99999/ ]; # 99 ** 2 = 9801, 999 ** 2 = 998001 etc for my $i (2 .. 9) { $x = '9' x $i; $x = $C->_new($x); $n = $C->_new("2"); my $rc = '9' x ($i-1). '8' . '0' x ($i-1) . '1'; print "# _pow( ", '9' x $i, ", 2) \n" unless ok ($C->_str($C->_pow($x,$n)),$rc); # if $i > $BASE_LEN, the test takes a really long time: if ($i <= $BASE_LEN) { $x = '9' x $i; $x = $C->_new($x); $n = '9' x $i; $n = $C->_new($n); print "# _root( ", '9' x $i, ", ", 9 x $i, ") \n"; print "# _root( ", '9' x $i, ", ", 9 x $i, ") \n" unless ok ($C->_str($C->_root($x,$n)),'1'); $x = '9' x $i; $x = $C->_new($x); $n = $C->_new("2"); print "# BASE_LEN $BASE_LEN _root( ", '9' x $i, ", ", 9 x $i, ") \n" unless ok ($C->_str($C->_root($x,$n)), $res->[$i-2]); } else { ok ("skipped $i", "skipped $i"); ok ("skipped $i", "skipped $i"); } } ############################################################################## # _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'); $x = $C->_new("12"); ok ($C->_str($C->_fac($x)),'479001600'); $x = $C->_new("13"); ok ($C->_str($C->_fac($x)),'6227020800'); # test that _fac modifes $x in place for small arguments $x = $C->_new("3"); $C->_fac($x); ok ($C->_str($x),'6'); $x = $C->_new("13"); $C->_fac($x); ok ($C->_str($x),'6227020800'); ############################################################################## # _inc and _dec foreach (qw/1 11 121 1231 12341 1234561 12345671 123456781 1234567891/) { $x = $C->_new("$_"); $C->_inc($x); print "# \$x = ",$C->_str($x),"\n" unless ok ($C->_str($x),substr($_,0,length($_)-1) . '2'); $C->_dec($x); ok ($C->_str($x),$_); } foreach (qw/19 119 1219 12319 1234519 12345619 123456719 1234567819/) { $x = $C->_new("$_"); $C->_inc($x); print "# \$x = ",$C->_str($x),"\n" unless ok ($C->_str($x),substr($_,0,length($_)-2) . '20'); $C->_dec($x); ok ($C->_str($x),$_); } foreach (qw/999 9999 99999 9999999 99999999 999999999 9999999999 99999999999/) { $x = $C->_new("$_"); $C->_inc($x); print "# \$x = ",$C->_str($x),"\n" unless ok ($C->_str($x), '1' . '0' x (length($_))); $C->_dec($x); ok ($C->_str($x),$_); } $x = $C->_new("1000"); $C->_inc($x); ok ($C->_str($x),'1001'); $C->_dec($x); ok ($C->_str($x),'1000'); my $BL; { no strict 'refs'; $BL = &{"$C"."::_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,$y)),1); # _from_hex, _from_bin, _from_oct ok ($C->_str( $C->_from_hex("0xFf")),255); ok ($C->_str( $C->_from_bin("0b10101011")),160+11); ok ($C->_str( $C->_from_oct("0100")), 8*8); ok ($C->_str( $C->_from_oct("01000")), 8*8*8); ok ($C->_str( $C->_from_oct("010001")), 8*8*8*8+1); ok ($C->_str( $C->_from_oct("010007")), 8*8*8*8+7); # _as_hex, _as_bin, as_oct ok ($C->_str( $C->_from_hex( $C->_as_hex( $C->_new("128")))), 128); ok ($C->_str( $C->_from_bin( $C->_as_bin( $C->_new("128")))), 128); ok ($C->_str( $C->_from_oct( $C->_as_oct( $C->_new("128")))), 128); ok ($C->_str( $C->_from_oct( $C->_as_oct( $C->_new("123456")))), 123456); ok ($C->_str( $C->_from_oct( $C->_as_oct( $C->_new("123456789")))), "123456789"); ok ($C->_str( $C->_from_oct( $C->_as_oct( $C->_new("1234567890123")))), "1234567890123"); my $long = '123456789012345678901234567890'; ok ($C->_str( $C->_from_hex( $C->_as_hex( $C->_new($long)))), $long); ok ($C->_str( $C->_from_bin( $C->_as_bin( $C->_new($long)))), $long); ok ($C->_str( $C->_from_oct( $C->_as_oct( $C->_new($long)))), $long); ok ($C->_str( $C->_from_hex( $C->_as_hex( $C->_new("0")))), 0); ok ($C->_str( $C->_from_bin( $C->_as_bin( $C->_new("0")))), 0); ok ($C->_str( $C->_from_oct( $C->_as_oct( $C->_new("0")))), 0); ok ($C->_as_hex( $C->_new("0")), '0x0'); ok ($C->_as_bin( $C->_new("0")), '0b0'); ok ($C->_as_oct( $C->_new("0")), '00'); ok ($C->_as_hex( $C->_new("12")), '0xc'); ok ($C->_as_bin( $C->_new("12")), '0b1100'); ok ($C->_as_oct( $C->_new("64")), '0100'); # _1ex ok ($C->_str($C->_1ex(0)), "1"); ok ($C->_str($C->_1ex(1)), "10"); ok ($C->_str($C->_1ex(2)), "100"); ok ($C->_str($C->_1ex(12)), "1000000000000"); ok ($C->_str($C->_1ex(16)), "10000000000000000"); # _check $x = $C->_new("123456789"); ok ($C->_check($x),0); ok ($C->_check(123),'123 is not a reference'); ############################################################################### # __strip_zeros { no strict 'refs'; # correct empty arrays $x = &{$C."::__strip_zeros"}([]); ok (@$x,1); ok ($x->[0],0); # don't strip single elements $x = &{$C."::__strip_zeros"}([0]); ok (@$x,1); ok ($x->[0],0); $x = &{$C."::__strip_zeros"}([1]); ok (@$x,1); ok ($x->[0],1); # don't strip non-zero elements $x = &{$C."::__strip_zeros"}([0,1]); ok (@$x,2); ok ($x->[0],0); ok ($x->[1],1); $x = &{$C."::__strip_zeros"}([0,1,2]); ok (@$x,3); ok ($x->[0],0); ok ($x->[1],1); ok ($x->[2],2); # but strip leading zeros $x = &{$C."::__strip_zeros"}([0,1,2,0]); ok (@$x,3); ok ($x->[0],0); ok ($x->[1],1); ok ($x->[2],2); $x = &{$C."::__strip_zeros"}([0,1,2,0,0]); ok (@$x,3); ok ($x->[0],0); ok ($x->[1],1); ok ($x->[2],2); $x = &{$C."::__strip_zeros"}([0,1,2,0,0,0]); ok (@$x,3); ok ($x->[0],0); ok ($x->[1],1); ok ($x->[2],2); # collapse multiple zeros $x = &{$C."::__strip_zeros"}([0,0,0,0]); ok (@$x,1); ok ($x->[0],0); } # done 1;