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use ark_std::ops::Neg;
use crate::{
mnt4::MNT4Config,
models::mnt4::MNT4,
short_weierstrass::{Affine, Projective},
AffineRepr, CurveGroup,
};
use ark_ff::fields::{Field, Fp2};
use ark_serialize::*;
use ark_std::vec::Vec;
use num_traits::One;
pub type G2Affine<P> = Affine<<P as MNT4Config>::G2Config>;
pub type G2Projective<P> = Projective<<P as MNT4Config>::G2Config>;
#[derive(Derivative, CanonicalSerialize, CanonicalDeserialize)]
#[derivative(
Clone(bound = "P: MNT4Config"),
Debug(bound = "P: MNT4Config"),
PartialEq(bound = "P: MNT4Config"),
Eq(bound = "P: MNT4Config")
)]
pub struct G2Prepared<P: MNT4Config> {
pub x: Fp2<P::Fp2Config>,
pub y: Fp2<P::Fp2Config>,
pub x_over_twist: Fp2<P::Fp2Config>,
pub y_over_twist: Fp2<P::Fp2Config>,
pub double_coefficients: Vec<AteDoubleCoefficients<P>>,
pub addition_coefficients: Vec<AteAdditionCoefficients<P>>,
}
impl<P: MNT4Config> Default for G2Prepared<P> {
fn default() -> Self {
Self::from(G2Affine::<P>::generator())
}
}
impl<P: MNT4Config> From<G2Affine<P>> for G2Prepared<P> {
fn from(g: G2Affine<P>) -> Self {
let twist_inv = P::TWIST.inverse().unwrap();
let mut g_prep = G2Prepared {
x: g.x,
y: g.y,
x_over_twist: g.x * &twist_inv,
y_over_twist: g.y * &twist_inv,
double_coefficients: vec![],
addition_coefficients: vec![],
};
let mut r = G2ProjectiveExtended {
x: g.x,
y: g.y,
z: <Fp2<P::Fp2Config>>::one(),
t: <Fp2<P::Fp2Config>>::one(),
};
let neg_g = g.neg();
for bit in P::ATE_LOOP_COUNT.iter().skip(1) {
let (r2, coeff) = MNT4::<P>::doubling_for_flipped_miller_loop(&r);
g_prep.double_coefficients.push(coeff);
r = r2;
let (r_temp, add_coeff) = match bit {
1 => MNT4::<P>::mixed_addition_for_flipped_miller_loop(&g.x, &g.y, &r),
-1 => MNT4::<P>::mixed_addition_for_flipped_miller_loop(&neg_g.x, &neg_g.y, &r),
0 => continue,
_ => unreachable!(),
};
g_prep.addition_coefficients.push(add_coeff);
r = r_temp;
}
if P::ATE_IS_LOOP_COUNT_NEG {
let rz_inv = r.z.inverse().unwrap();
let rz2_inv = rz_inv.square();
let rz3_inv = rz_inv * &rz2_inv;
let minus_r_affine_x = r.x * &rz2_inv;
let minus_r_affine_y = -r.y * &rz3_inv;
let add_result = MNT4::<P>::mixed_addition_for_flipped_miller_loop(
&minus_r_affine_x,
&minus_r_affine_y,
&r,
);
g_prep.addition_coefficients.push(add_result.1);
}
g_prep
}
}
impl<'a, P: MNT4Config> From<&'a G2Affine<P>> for G2Prepared<P> {
fn from(g2: &'a G2Affine<P>) -> Self {
(*g2).into()
}
}
impl<P: MNT4Config> From<G2Projective<P>> for G2Prepared<P> {
fn from(g2: G2Projective<P>) -> Self {
g2.into_affine().into()
}
}
impl<'a, P: MNT4Config> From<&'a G2Projective<P>> for G2Prepared<P> {
fn from(g2: &'a G2Projective<P>) -> Self {
(*g2).into()
}
}
pub(super) struct G2ProjectiveExtended<P: MNT4Config> {
pub(crate) x: Fp2<P::Fp2Config>,
pub(crate) y: Fp2<P::Fp2Config>,
pub(crate) z: Fp2<P::Fp2Config>,
pub(crate) t: Fp2<P::Fp2Config>,
}
#[derive(Derivative, CanonicalSerialize, CanonicalDeserialize)]
#[derivative(
Clone(bound = "P: MNT4Config"),
Debug(bound = "P: MNT4Config"),
PartialEq(bound = "P: MNT4Config"),
Eq(bound = "P: MNT4Config")
)]
pub struct AteDoubleCoefficients<P: MNT4Config> {
pub c_h: Fp2<P::Fp2Config>,
pub c_4c: Fp2<P::Fp2Config>,
pub c_j: Fp2<P::Fp2Config>,
pub c_l: Fp2<P::Fp2Config>,
}
#[derive(Derivative, CanonicalSerialize, CanonicalDeserialize)]
#[derivative(
Clone(bound = "P: MNT4Config"),
Debug(bound = "P: MNT4Config"),
PartialEq(bound = "P: MNT4Config"),
Eq(bound = "P: MNT4Config")
)]
pub struct AteAdditionCoefficients<P: MNT4Config> {
pub c_l1: Fp2<P::Fp2Config>,
pub c_rz: Fp2<P::Fp2Config>,
}