You found a perl5 specification bug/feature that will very likely never be fixed.
This modulo vs i_modulo bug is even documented as such, with a weird definition of modulo, which deviates from the mathematical definition and the implementation in libc, the Standard C library.

The documentation in http://perldoc.perl.org/perlop.html#Multiplicative-Operators describes only one case, not the second. And forgets to tell the whole story.

```
"If $b is negative, then $a % $b is $a minus the smallest multiple of $b
that is not less than $a (that is, the result will be less than or
equal to zero)."
```

Thus -13 % 4 is unspecified, 13 % -4 is described as returning -3, not 1.
In reality -13 % 4 returns 3 not -1.

This perl5 behavior is only weird without `use integer`

.
With `use integer`

you get proper and fast libc behavior.

```
use integer;
print -13 % 4; # => -1
print 13 % -4; # => 1
print -13 % -4; # => -1 (same with or without use integer)
print 13 % 4; # => 1 (same with or without use integer)
{
no integer;
print -13 % 4; # => 3 (different to libc)
print 13 % -4; # => -3 (different to libc)
print -13 % -4; # => -1 (same with or without use integer)
print 13 % 4; # => 1 (same with or without use integer)
}
```

Note that with both arguments being literal integer constants, the result is constant folded at compile-time. But even with both arguments clearly being integer types, the constant folder uses the generic modulo operator, not the specific i_modulo operator, which is used under use integer. Or with a typed perl extension with both args being integers at compile-time.

This bug was even promoted to perl6, defined in parrot and moar as in perl5. I'm not sure if the jvm backend also uses a hack to use the weird perl5 definition.