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use crate::{
arch::word::Word,
div,
memory::{self, Memory, MemoryAllocation},
modular::{
modulo::{Modulo, ModuloLarge, ModuloRepr, ModuloSmall},
modulo_ring::ModuloRingLarge,
},
mul,
primitive::extend_word,
shift,
sign::Sign::Positive,
};
use alloc::alloc::Layout;
use core::ops::{Mul, MulAssign};
impl<'a> Mul<Modulo<'a>> for Modulo<'a> {
type Output = Modulo<'a>;
fn mul(self, rhs: Modulo<'a>) -> Modulo<'a> {
self.mul(&rhs)
}
}
impl<'a> Mul<&Modulo<'a>> for Modulo<'a> {
type Output = Modulo<'a>;
fn mul(mut self, rhs: &Modulo<'a>) -> Modulo<'a> {
self.mul_assign(rhs);
self
}
}
impl<'a> Mul<Modulo<'a>> for &Modulo<'a> {
type Output = Modulo<'a>;
fn mul(self, rhs: Modulo<'a>) -> Modulo<'a> {
rhs.mul(self)
}
}
impl<'a> Mul<&Modulo<'a>> for &Modulo<'a> {
type Output = Modulo<'a>;
fn mul(self, rhs: &Modulo<'a>) -> Modulo<'a> {
self.clone().mul(rhs)
}
}
impl<'a> MulAssign<Modulo<'a>> for Modulo<'a> {
fn mul_assign(&mut self, rhs: Modulo<'a>) {
self.mul_assign(&rhs)
}
}
impl<'a> MulAssign<&Modulo<'a>> for Modulo<'a> {
fn mul_assign(&mut self, rhs: &Modulo<'a>) {
match (self.repr_mut(), rhs.repr()) {
(ModuloRepr::Small(self_small), ModuloRepr::Small(rhs_small)) => {
self_small.check_same_ring(rhs_small);
self_small.mul_in_place(rhs_small);
}
(ModuloRepr::Large(self_large), ModuloRepr::Large(rhs_large)) => {
self_large.check_same_ring(rhs_large);
let memory_requirement = self_large.ring().mul_memory_requirement();
let mut allocation = MemoryAllocation::new(memory_requirement);
let mut memory = allocation.memory();
self_large.mul_in_place(rhs_large, &mut memory);
}
_ => Modulo::panic_different_rings(),
}
}
}
impl<'a> ModuloSmall<'a> {
pub(crate) fn mul_in_place(&mut self, rhs: &ModuloSmall<'a>) {
self.mul_by_normalized_value_in_place(rhs.normalized_value());
}
pub(crate) fn square_in_place(&mut self) {
self.mul_by_normalized_value_in_place(self.normalized_value());
}
fn mul_by_normalized_value_in_place(&mut self, normalized_value: Word) {
let ring = self.ring();
let self_val = self.normalized_value() >> ring.shift();
let product = extend_word(self_val) * extend_word(normalized_value);
let (_, product) = ring.fast_div().div_rem(product);
self.set_normalized_value(product);
}
}
impl ModuloRingLarge {
pub(crate) fn mul_memory_requirement(&self) -> Layout {
let n = self.normalized_modulus().len();
memory::add_layout(
memory::array_layout::<Word>(2 * n),
memory::max_layout(
mul::memory_requirement_exact(n),
div::memory_requirement_exact(2 * n, n),
),
)
}
pub(crate) fn mul_normalized_values<'a>(
&self,
a: &[Word],
b: &[Word],
memory: &'a mut Memory,
) -> &'a [Word] {
let modulus = self.normalized_modulus();
let n = modulus.len();
debug_assert!(a.len() == n && b.len() == n);
let (product, mut memory) = memory.allocate_slice_fill::<Word>(2 * n, 0);
let overflow = mul::add_signed_mul_same_len(product, Positive, a, b, &mut memory);
assert_eq!(overflow, 0);
shift::shr_in_place(product, self.shift());
let _overflow = div::div_rem_in_place(product, modulus, *self.fast_div_top(), &mut memory);
&product[..n]
}
}
impl<'a> ModuloLarge<'a> {
pub(crate) fn mul_in_place(&mut self, rhs: &ModuloLarge<'a>, memory: &mut Memory) {
self.mul_normalized_value_in_place(rhs.normalized_value(), memory);
}
pub(crate) fn square_in_place(&mut self, memory: &mut Memory) {
self.modify_normalized_value(|words, ring| {
words.copy_from_slice(ring.mul_normalized_values(words, words, memory));
});
}
pub(crate) fn mul_normalized_value_in_place(
&mut self,
normalized_value: &[Word],
memory: &mut Memory,
) {
self.modify_normalized_value(|words, ring| {
words.copy_from_slice(ring.mul_normalized_values(words, normalized_value, memory));
});
}
}