pub fn multiply(dest: &mut [u64], left: &[u64], right: &[u64]) { let len = right.len(); assert_eq!(left.len(), len, "Uneven argument lengths in multiply"); assert_eq!(dest.len(), len*2, "Bad destination size in multiply"); for i in 0..len { let mut carry = 0; for j in 0..len { let old = dest[i+j] as u128; let l128 = left[j] as u128; let r128 = right[i] as u128; let uv = old + (l128 * r128) + carry; dest[i+j] = uv as u64; carry = uv >> 64; } dest[i+len] = carry as u64; } } macro_rules! multiply_impls { ($name: ident, $dbl: ident) => { impl Mul<$name> for $name { type Output = $dbl; fn mul(self, rhs: $name) -> $dbl { let mut res = $dbl::zero(); multiply(&mut res.value, &self.value, &rhs.value); res } } impl<'a> Mul<$name> for &'a $name { type Output = $dbl; fn mul(self, rhs: $name) -> $dbl { let mut res = $dbl::zero(); multiply(&mut res.value, &self.value, &rhs.value); res } } impl<'a> Mul<&'a $name> for $name { type Output = $dbl; fn mul(self, rhs: &$name) -> $dbl { let mut res = $dbl::zero(); multiply(&mut res.value, &self.value, &rhs.value); res } } impl<'a,'b> Mul<&'a $name> for &'b $name { type Output = $dbl; fn mul(self, rhs: &$name) -> $dbl { let mut res = $dbl::zero(); multiply(&mut res.value, &self.value, &rhs.value); res } } }; } #[cfg(test)] macro_rules! generate_mul_tests { ($name: ident, $lname: ident, $dbl: ident) => { #[test] fn $lname() { generate_mul_tests!(body $name, $lname, $dbl); } }; (ignore $name: ident, $lname: ident, $dbl: ident) => { #[test] #[ignore] fn $lname() { generate_mul_tests!(body $name, $lname, $dbl); } }; (body $name: ident, $lname: ident, $dbl: ident) => { let fname = format!("testdata/mul/{}.tests", stringify!($name)); run_test(fname.to_string(), 3, |case| { let (neg0, abytes) = case.get("a").unwrap(); let (neg1, bbytes) = case.get("b").unwrap(); let (neg2, cbytes) = case.get("c").unwrap(); assert!(!neg0 && !neg1 && !neg2); let a = $name::from_bytes(abytes); let b = $name::from_bytes(bbytes); let c = $dbl::from_bytes(cbytes); assert_eq!(c, &a * &b); }); }; }