use crate::{Limb, Uint, WideWord, Word};
impl<const LIMBS: usize> Uint<LIMBS> {
pub const fn mul_mod_special(&self, rhs: &Self, c: Limb) -> Self {
if LIMBS == 1 {
let prod = self.limbs[0].0 as WideWord * rhs.limbs[0].0 as WideWord;
let reduced = prod % Word::MIN.wrapping_sub(c.0) as WideWord;
return Self::from_word(reduced as Word);
}
let (lo, hi) = self.mul_wide(rhs);
let (lo, carry) = mac_by_limb(&lo, &hi, c, Limb::ZERO);
let (lo, carry) = {
let rhs = (carry.0 + 1) as WideWord * c.0 as WideWord;
lo.adc(&Self::from_wide_word(rhs), Limb::ZERO)
};
let (lo, _) = {
let rhs = carry.0.wrapping_sub(1) & c.0;
lo.sbb(&Self::from_word(rhs), Limb::ZERO)
};
lo
}
}
const fn mac_by_limb<const LIMBS: usize>(
a: &Uint<LIMBS>,
b: &Uint<LIMBS>,
c: Limb,
carry: Limb,
) -> (Uint<LIMBS>, Limb) {
let mut i = 0;
let mut a = *a;
let mut carry = carry;
while i < LIMBS {
let (n, c) = a.limbs[i].mac(b.limbs[i], c, carry);
a.limbs[i] = n;
carry = c;
i += 1;
}
(a, carry)
}
#[cfg(all(test, feature = "rand"))]
mod tests {
use crate::{Limb, NonZero, Random, RandomMod, Uint};
use rand_core::SeedableRng;
macro_rules! test_mul_mod_special {
($size:expr, $test_name:ident) => {
#[test]
fn $test_name() {
let mut rng = rand_chacha::ChaCha8Rng::seed_from_u64(1);
let moduli = [
NonZero::<Limb>::random(&mut rng),
NonZero::<Limb>::random(&mut rng),
];
for special in &moduli {
let p = &NonZero::new(Uint::ZERO.wrapping_sub(&Uint::from_word(special.0)))
.unwrap();
let minus_one = p.wrapping_sub(&Uint::ONE);
let base_cases = [
(Uint::ZERO, Uint::ZERO, Uint::ZERO),
(Uint::ONE, Uint::ZERO, Uint::ZERO),
(Uint::ZERO, Uint::ONE, Uint::ZERO),
(Uint::ONE, Uint::ONE, Uint::ONE),
(minus_one, minus_one, Uint::ONE),
(minus_one, Uint::ONE, minus_one),
(Uint::ONE, minus_one, minus_one),
];
for (a, b, c) in &base_cases {
let x = a.mul_mod_special(&b, *special.as_ref());
assert_eq!(*c, x, "{} * {} mod {} = {} != {}", a, b, p, x, c);
}
for _i in 0..100 {
let a = Uint::<$size>::random_mod(&mut rng, p);
let b = Uint::<$size>::random_mod(&mut rng, p);
let c = a.mul_mod_special(&b, *special.as_ref());
assert!(c < **p, "not reduced: {} >= {} ", c, p);
let expected = {
let (lo, hi) = a.mul_wide(&b);
let mut prod = Uint::<{ 2 * $size }>::ZERO;
prod.limbs[..$size].clone_from_slice(&lo.limbs);
prod.limbs[$size..].clone_from_slice(&hi.limbs);
let mut modulus = Uint::ZERO;
modulus.limbs[..$size].clone_from_slice(&p.as_ref().limbs);
let reduced = prod.rem(&NonZero::new(modulus).unwrap());
let mut expected = Uint::ZERO;
expected.limbs[..].clone_from_slice(&reduced.limbs[..$size]);
expected
};
assert_eq!(c, expected, "incorrect result");
}
}
}
};
}
test_mul_mod_special!(1, mul_mod_special_1);
test_mul_mod_special!(2, mul_mod_special_2);
test_mul_mod_special!(3, mul_mod_special_3);
test_mul_mod_special!(4, mul_mod_special_4);
test_mul_mod_special!(5, mul_mod_special_5);
test_mul_mod_special!(6, mul_mod_special_6);
test_mul_mod_special!(7, mul_mod_special_7);
test_mul_mod_special!(8, mul_mod_special_8);
test_mul_mod_special!(9, mul_mod_special_9);
test_mul_mod_special!(10, mul_mod_special_10);
test_mul_mod_special!(11, mul_mod_special_11);
test_mul_mod_special!(12, mul_mod_special_12);
}