# Why does Perl modulo operator work with large integers using bignum but not Math::BigInt?

I tried the following in a Perl script:

``````\$b = 19999999999999999 % 10000000000000000;
print "\$b\n";
``````

It incorrectly outputted `0`.

Then I found an answer saying to use `bignum`:

``````use bignum;
\$b = 19999999999999999 % 10000000000000000;
print "\$b\n";
``````

It correctly outputted `9999999999999999`.

But `bignum` just converts all integer constants into a Math::BigInt. So I tried the following which should be the same as using `bignum`:

``````use Math::BigInt;
\$b = Math::BigInt->new(19999999999999999) % Math::BigInt->new(10000000000000000);
print "\$b\n";
``````

But that incorrectly outputted `0`. Am I doing something wrong with Math::BigInt?

• Works ok for me on both 64bit and 32bit Perl 5.26 – wolfrevokcats Mar 25 at 18:39
• Yeah, I just tried it on a 64-bit Perl and it worked fine, so I thought it would break on a 32-bit Perl. – melpomene Mar 25 at 18:41

You're still using native Perl numbers first and then converting them to `Math::BigInt` objects. Try this instead:

``````my \$x = Math::BigInt->new('19999999999999999') % Math::BigInt->new('10000000000000000');
``````

Quoting from `perldoc Math::BigInt`:

Input given as scalar numbers might lose precision. Quote your input to ensure that no digits are lost:

``````\$x = Math::BigInt->new( 56789012345678901234 );   # bad
\$x = Math::BigInt->new('56789012345678901234');   # good
``````

(Also, don't use `\$b` outside of `sort` and similar routines.)