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use crate::common::consts::ONE;
use crate::defs::Error;
use crate::num::BigFloatNumber;
use crate::RoundingMode;
fn pqr(a: usize, b: usize) -> Result<(BigFloatNumber, BigFloatNumber, BigFloatNumber), Error> {
if a == b - 1 {
let p = BigFloatNumber::from_word(81, 1)?;
let q = BigFloatNumber::from_usize((2 * b + 1) * 121)?;
let r = BigFloatNumber::from_usize((2 * b + 1) * 81)?;
Ok((p, q, r))
} else {
let m = (a + b) / 2;
let (pa, qa, ra) = pqr(a, m)?;
let (pb, qb, rb) = pqr(m, b)?;
let pq = pa.mul_full_prec(&qb)?;
let pr = pb.mul_full_prec(&ra)?;
let p = pq.add_full_prec(&pr)?;
let q = qa.mul_full_prec(&qb)?;
let r = ra.mul_full_prec(&rb)?;
Ok((p, q, r))
}
}
fn pqr_inc(
pa: &BigFloatNumber,
qa: &BigFloatNumber,
ra: &BigFloatNumber,
m: usize,
) -> Result<(BigFloatNumber, BigFloatNumber, BigFloatNumber, usize), Error> {
let b = m * 2;
let (pb, qb, rb) = pqr(m, b)?;
let pq = pa.mul_full_prec(&qb)?;
let pr = pb.mul_full_prec(ra)?;
let p_ret = pq.add_full_prec(&pr)?;
let q_ret = qa.mul_full_prec(&qb)?;
let r_ret = ra.mul_full_prec(&rb)?;
Ok((p_ret, q_ret, r_ret, b))
}
#[derive(Debug)]
pub struct Ln10Cache {
b: usize,
pk: BigFloatNumber,
qk: BigFloatNumber,
rk: BigFloatNumber,
val: BigFloatNumber,
}
impl Ln10Cache {
pub fn new() -> Result<Self, Error> {
let (p01, q01, r01) = pqr(0, 1)?;
let val = Self::calc_ln10(&p01, &q01)?;
Ok(Ln10Cache {
b: 1,
pk: p01,
qk: q01,
rk: r01,
val,
})
}
fn calc_ln10(p: &BigFloatNumber, q: &BigFloatNumber) -> Result<BigFloatNumber, Error> {
let prec = p
.get_mantissa_max_bit_len()
.max(q.get_mantissa_max_bit_len());
let mut val = p.div(q, prec, crate::RoundingMode::None)?;
val = val.add(&ONE, prec, crate::RoundingMode::None)?;
let f0 = BigFloatNumber::from_word(18, 1)?;
let f1 = BigFloatNumber::from_word(11, 1)?;
val = val.mul(&f0, prec, crate::RoundingMode::None)?;
val.div(&f1, prec, crate::RoundingMode::None)
}
pub fn for_prec(&mut self, k: usize, rm: RoundingMode) -> Result<BigFloatNumber, Error> {
let kext = k * 1728 / 1000 + 4;
if self.b <= kext {
let mut pk;
let mut qk;
let mut rk;
let mut bb;
(pk, qk, rk, bb) = pqr_inc(&self.pk, &self.qk, &self.rk, self.b)?;
while bb <= kext {
(pk, qk, rk, bb) = pqr_inc(&pk, &qk, &rk, bb)?;
}
let mut ret = Self::calc_ln10(&pk, &qk)?;
self.val = ret.clone()?;
ret.set_precision(k, rm)?;
self.pk = pk;
self.qk = qk;
self.rk = rk;
self.b = bb;
Ok(ret)
} else {
let mut ret = self.val.clone()?;
ret.set_precision(k, rm)?;
Ok(ret)
}
}
}
#[cfg(test)]
mod tests {
use super::*;
use crate::{RoundingMode, Sign};
#[test]
#[cfg(target_arch = "x86")]
fn test_ln10_const() {
let mut ln10 = Ln10Cache::new().unwrap();
let c = ln10.for_prec(320, RoundingMode::ToEven).unwrap();
let r = BigFloatNumber::from_raw_parts(
&[
2980581469, 2519663319, 32517490, 2210799234, 3663591694, 3801083129, 2194868776,
3931559467, 2863180822, 2472381917,
],
320,
Sign::Pos,
2,
)
.unwrap();
assert!(c.cmp(&r) == 0);
}
#[test]
#[cfg(target_arch = "x86_64")]
fn test_ln10_const() {
let mut ln10 = Ln10Cache::new().unwrap();
let c = ln10.for_prec(320, RoundingMode::ToEven).unwrap();
let r = BigFloatNumber::from_raw_parts(
&[
10821871555016396893,
9495310408084368754,
16325527732095940878,
16885919335239060008,
10618799479599967254,
],
320,
Sign::Pos,
2,
)
.unwrap();
assert!(c.cmp(&r) == 0);
}
}