How can I set the level of precision for Raku's sqrt?
As stated on Elizabeth's answer, sqrt returns a Num type, thus it has limited precision. See Elizabeth's answer for more detail.
For that reason I created a raku class: BigRoot, which uses newton's method and FatRat types to calculate the roots. You may use it like this:
use BigRoot;
# Can change precision level (Default precision is 30)
BigRoot.precision = 50;
my $root2 = BigRoot.newton's-sqrt: 2;
# 1.41421356237309504880168872420969807856967187537695
say $root2.WHAT;
# (FatRat)
# Can use other root numbers
say BigRoot.newton's-root: root => 3, number => 30;
# 3.10723250595385886687766242752238636285490682906742
# Numbers can be Int, Rational and Num:
say BigRoot.newton's-sqrt: 2.123;
# 1.45705181788431944566113502812562734420538186940001
# Can use other rational roots
say BigRoot.newton's-root: root => FatRat.new(2, 3), number => 30;
# 164.31676725154983403709093484024064018582340849939498
# Results are rounded:
BigRoot.precision = 8;
say BigRoot.newton's-sqrt: 2;
# 1.41421356
BigRoot.precision = 7;
say BigRoot.newton's-sqrt: 2;
# 1.4142136
In general it seems to be pretty fast (at least compared to Perl's bigfloat)
Benchmarks:
|---------------------------------------|-------------|------------|
| sqrt with 10_000 precision digits | Raku | Perl |
|---------------------------------------|-------------|------------|
| 20000000000 | 0.714 | 3.713 |
|---------------------------------------|-------------|------------|
| 200000.1234 | 1.078 | 4.269 |
|---------------------------------------|-------------|------------|
| π | 0.879 | 3.677 |
|---------------------------------------|-------------|------------|
| 123.9/12.29 | 0.871 | 9.667 |
|---------------------------------------|-------------|------------|
| 999999999999999999999999999999999 | 1.208 | 3.937 |
|---------------------------------------|-------------|------------|
| 302187301.3727 / 123.30219380928137 | 1.528 | 7.587 |
|---------------------------------------|-------------|------------|
| 2 + 999999999999 ** 10 | 2.193 | 3.616 |
|---------------------------------------|-------------|------------|
| 91200937373737999999997301.3727 / π | 1.076 | 7.419 |
|---------------------------------------|-------------|------------|
If want to implement your own sqrt using newton's method, this the basic idea behind it:
sub newtons-sqrt(:$number, :$precision) returns FatRat {
my FatRat $error = FatRat.new: 1, 10 ** ($precision + 1);
my FatRat $guess = (sqrt $number).FatRat;
my FatRat $input = $number.FatRat;
my FatRat $diff = $input;
while $diff > $error {
my FatRat $new-guess = $guess - (($guess ** 2 - $input) / (2 * $guess));
$diff = abs($new-guess - $guess);
$guess = $new-guess;
}
return $guess.round: FatRat.new: 1, 10 ** $precision;
}
In Rakudo, sqrt is implemented using the sqrt_n NQP opcode. Which indicates it only supports native nums (because of the _n suffix). Which implies limited precision.
Internally, I'm pretty sure this just maps to the sqrt functionality of one of the underlying math libraries that MoarVM uses.
I guess what we need is an ecosystem module that would export a sqrt function based on Rational arithmetic. That would give you the option to use higher precision sqrt implementations at the expense of performance. Which then in turn, might turn out to be interesting enough to integrate in core.