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use crate::{Checked, CheckedMul, Limb, LimbUInt, WideLimbUInt, Wrapping, Zero};
use core::ops::{Mul, MulAssign};
use subtle::CtOption;
impl Limb {
#[inline(always)]
pub const fn mac(self, b: Limb, c: Limb, carry: Limb) -> (Limb, Limb) {
let a = self.0 as WideLimbUInt;
let b = b.0 as WideLimbUInt;
let c = c.0 as WideLimbUInt;
let carry = carry.0 as WideLimbUInt;
let ret = a + (b * c) + carry;
(
Limb(ret as LimbUInt),
Limb((ret >> Self::BIT_SIZE) as LimbUInt),
)
}
#[inline]
pub const fn saturating_mul(&self, rhs: Self) -> Self {
Limb(self.0.saturating_mul(rhs.0))
}
#[inline(always)]
pub const fn wrapping_mul(&self, rhs: Self) -> Self {
Limb(self.0.wrapping_mul(rhs.0))
}
pub(crate) const fn mul_wide(&self, rhs: Self) -> WideLimbUInt {
(self.0 as WideLimbUInt) * (rhs.0 as WideLimbUInt)
}
}
impl CheckedMul for Limb {
type Output = Self;
#[inline]
fn checked_mul(&self, rhs: Self) -> CtOption<Self> {
let result = self.mul_wide(rhs);
let overflow = Limb((result >> Self::BIT_SIZE) as LimbUInt);
CtOption::new(Limb(result as LimbUInt), overflow.is_zero())
}
}
impl Mul for Wrapping<Limb> {
type Output = Self;
fn mul(self, rhs: Self) -> Wrapping<Limb> {
Wrapping(self.0.wrapping_mul(rhs.0))
}
}
impl Mul<&Wrapping<Limb>> for Wrapping<Limb> {
type Output = Wrapping<Limb>;
fn mul(self, rhs: &Wrapping<Limb>) -> Wrapping<Limb> {
Wrapping(self.0.wrapping_mul(rhs.0))
}
}
impl Mul<Wrapping<Limb>> for &Wrapping<Limb> {
type Output = Wrapping<Limb>;
fn mul(self, rhs: Wrapping<Limb>) -> Wrapping<Limb> {
Wrapping(self.0.wrapping_mul(rhs.0))
}
}
impl Mul<&Wrapping<Limb>> for &Wrapping<Limb> {
type Output = Wrapping<Limb>;
fn mul(self, rhs: &Wrapping<Limb>) -> Wrapping<Limb> {
Wrapping(self.0.wrapping_mul(rhs.0))
}
}
impl MulAssign for Wrapping<Limb> {
fn mul_assign(&mut self, other: Self) {
*self = *self * other;
}
}
impl MulAssign<&Wrapping<Limb>> for Wrapping<Limb> {
fn mul_assign(&mut self, other: &Self) {
*self = *self * other;
}
}
impl Mul for Checked<Limb> {
type Output = Self;
fn mul(self, rhs: Self) -> Checked<Limb> {
Checked(
self.0
.and_then(|lhs| rhs.0.and_then(|rhs| lhs.checked_mul(rhs))),
)
}
}
impl Mul<&Checked<Limb>> for Checked<Limb> {
type Output = Checked<Limb>;
fn mul(self, rhs: &Checked<Limb>) -> Checked<Limb> {
Checked(
self.0
.and_then(|lhs| rhs.0.and_then(|rhs| lhs.checked_mul(rhs))),
)
}
}
impl Mul<Checked<Limb>> for &Checked<Limb> {
type Output = Checked<Limb>;
fn mul(self, rhs: Checked<Limb>) -> Checked<Limb> {
Checked(
self.0
.and_then(|lhs| rhs.0.and_then(|rhs| lhs.checked_mul(rhs))),
)
}
}
impl Mul<&Checked<Limb>> for &Checked<Limb> {
type Output = Checked<Limb>;
fn mul(self, rhs: &Checked<Limb>) -> Checked<Limb> {
Checked(
self.0
.and_then(|lhs| rhs.0.and_then(|rhs| lhs.checked_mul(rhs))),
)
}
}
impl MulAssign for Checked<Limb> {
fn mul_assign(&mut self, other: Self) {
*self = *self * other;
}
}
impl MulAssign<&Checked<Limb>> for Checked<Limb> {
fn mul_assign(&mut self, other: &Self) {
*self = *self * other;
}
}
#[cfg(test)]
mod tests {
use super::{CheckedMul, Limb, WideLimbUInt};
#[test]
fn mul_wide_zero_and_one() {
assert_eq!(Limb::ZERO.mul_wide(Limb::ZERO), 0);
assert_eq!(Limb::ZERO.mul_wide(Limb::ONE), 0);
assert_eq!(Limb::ONE.mul_wide(Limb::ZERO), 0);
assert_eq!(Limb::ONE.mul_wide(Limb::ONE), 1);
}
#[test]
fn mul_wide() {
let primes: &[u32] = &[3, 5, 17, 256, 65537];
for &a_int in primes {
for &b_int in primes {
let actual = Limb::from_u32(a_int).mul_wide(Limb::from_u32(b_int));
let expected = a_int as WideLimbUInt * b_int as WideLimbUInt;
assert_eq!(actual, expected);
}
}
}
#[test]
#[cfg(target_pointer_width = "32")]
fn checked_mul_ok() {
let n = Limb::from_u16(0xffff);
assert_eq!(n.checked_mul(n).unwrap(), Limb::from_u32(0xfffe_0001));
}
#[test]
#[cfg(target_pointer_width = "64")]
fn checked_mul_ok() {
let n = Limb::from_u32(0xffff_ffff);
assert_eq!(
n.checked_mul(n).unwrap(),
Limb::from_u64(0xffff_fffe_0000_0001)
);
}
#[test]
fn checked_mul_overflow() {
let n = Limb::MAX;
assert!(bool::from(n.checked_mul(n).is_none()));
}
}