//! [`Uint`] subtraction modulus operations. use crate::{Limb, SubMod, Uint}; impl Uint { /// Computes `self - rhs mod p` in constant time. /// /// Assumes `self - rhs` as unbounded signed integer is in `[-p, p)`. pub const fn sub_mod(&self, rhs: &Uint, p: &Uint) -> Uint { let (mut out, borrow) = self.sbb(rhs, Limb::ZERO); // If underflow occurred on the final limb, borrow = 0xfff...fff, otherwise // borrow = 0x000...000. Thus, we use it as a mask to conditionally add the modulus. let mut carry = Limb::ZERO; let mut i = 0; while i < LIMBS { let (l, c) = out.limbs[i].adc(p.limbs[i].bitand(borrow), carry); out.limbs[i] = l; carry = c; i += 1; } out } /// Computes `self - rhs mod p` in constant time for the special modulus /// `p = MAX+1-c` where `c` is small enough to fit in a single [`Limb`]. /// /// Assumes `self - rhs` as unbounded signed integer is in `[-p, p)`. pub const fn sub_mod_special(&self, rhs: &Self, c: Limb) -> Self { let (out, borrow) = self.sbb(rhs, Limb::ZERO); // If underflow occurred, then we need to subtract `c` to account for // the underflow. This cannot underflow due to the assumption // `self - rhs >= -p`. let l = borrow.0 & c.0; let (out, _) = out.sbb(&Uint::from_word(l), Limb::ZERO); out } } impl SubMod for Uint { type Output = Self; fn sub_mod(&self, rhs: &Self, p: &Self) -> Self { debug_assert!(self < p); debug_assert!(rhs < p); self.sub_mod(rhs, p) } } #[cfg(all(test, feature = "rand"))] mod tests { use crate::{Limb, NonZero, Random, RandomMod, Uint}; use rand_core::SeedableRng; macro_rules! test_sub_mod { ($size:expr, $test_name:ident) => { #[test] fn $test_name() { let mut rng = rand_chacha::ChaCha8Rng::seed_from_u64(1); let moduli = [ NonZero::>::random(&mut rng), NonZero::>::random(&mut rng), ]; for p in &moduli { let base_cases = [ (1u64, 0u64, 1u64.into()), (0, 1, p.wrapping_sub(&1u64.into())), (0, 0, 0u64.into()), ]; for (a, b, c) in &base_cases { let a: Uint<$size> = (*a).into(); let b: Uint<$size> = (*b).into(); let x = a.sub_mod(&b, p); assert_eq!(*c, x, "{} - {} mod {} = {} != {}", a, b, p, x, c); } if $size > 1 { for _i in 0..100 { let a: Uint<$size> = Limb::random(&mut rng).into(); let b: Uint<$size> = Limb::random(&mut rng).into(); let (a, b) = if a < b { (b, a) } else { (a, b) }; let c = a.sub_mod(&b, p); assert!(c < **p, "not reduced"); assert_eq!(c, a.wrapping_sub(&b), "result incorrect"); } } for _i in 0..100 { let a = Uint::<$size>::random_mod(&mut rng, p); let b = Uint::<$size>::random_mod(&mut rng, p); let c = a.sub_mod(&b, p); assert!(c < **p, "not reduced: {} >= {} ", c, p); let x = a.wrapping_sub(&b); if a >= b && x < **p { assert_eq!(c, x, "incorrect result"); } } } } }; } macro_rules! test_sub_mod_special { ($size:expr, $test_name:ident) => { #[test] fn $test_name() { let mut rng = rand_chacha::ChaCha8Rng::seed_from_u64(1); let moduli = [ NonZero::::random(&mut rng), NonZero::::random(&mut rng), ]; for special in &moduli { let p = &NonZero::new(Uint::ZERO.wrapping_sub(&Uint::from_word(special.0))) .unwrap(); let minus_one = p.wrapping_sub(&Uint::ONE); let base_cases = [ (Uint::ZERO, Uint::ZERO, Uint::ZERO), (Uint::ONE, Uint::ZERO, Uint::ONE), (Uint::ZERO, Uint::ONE, minus_one), (minus_one, minus_one, Uint::ZERO), (Uint::ZERO, minus_one, Uint::ONE), ]; for (a, b, c) in &base_cases { let x = a.sub_mod_special(&b, *special.as_ref()); assert_eq!(*c, x, "{} - {} mod {} = {} != {}", a, b, p, x, c); } for _i in 0..100 { let a = Uint::<$size>::random_mod(&mut rng, p); let b = Uint::<$size>::random_mod(&mut rng, p); let c = a.sub_mod_special(&b, *special.as_ref()); assert!(c < **p, "not reduced: {} >= {} ", c, p); let expected = a.sub_mod(&b, p); assert_eq!(c, expected, "incorrect result"); } } } }; } // Test requires 1-limb is capable of representing a 64-bit integer #[cfg(target_pointer_width = "64")] test_sub_mod!(1, sub1); test_sub_mod!(2, sub2); test_sub_mod!(3, sub3); test_sub_mod!(4, sub4); test_sub_mod!(5, sub5); test_sub_mod!(6, sub6); test_sub_mod!(7, sub7); test_sub_mod!(8, sub8); test_sub_mod!(9, sub9); test_sub_mod!(10, sub10); test_sub_mod!(11, sub11); test_sub_mod!(12, sub12); test_sub_mod_special!(1, sub_mod_special_1); test_sub_mod_special!(2, sub_mod_special_2); test_sub_mod_special!(3, sub_mod_special_3); test_sub_mod_special!(4, sub_mod_special_4); test_sub_mod_special!(5, sub_mod_special_5); test_sub_mod_special!(6, sub_mod_special_6); test_sub_mod_special!(7, sub_mod_special_7); test_sub_mod_special!(8, sub_mod_special_8); test_sub_mod_special!(9, sub_mod_special_9); test_sub_mod_special!(10, sub_mod_special_10); test_sub_mod_special!(11, sub_mod_special_11); test_sub_mod_special!(12, sub_mod_special_12); }