use crate::{
models::{short_weierstrass::SWCurveConfig, CurveConfig},
pairing::{MillerLoopOutput, Pairing, PairingOutput},
};
pub use ark_ec::bw6::TwistType;
use ark_ff::fields::{
fp3::Fp3Config,
fp6_2over3::{Fp6, Fp6Config},
PrimeField,
};
use ark_std::marker::PhantomData;
use derivative::Derivative;
pub trait BW6Config: 'static + Sized {
const X: <Self::Fp as PrimeField>::BigInt;
const X_IS_NEGATIVE: bool;
const ATE_LOOP_COUNT_1: &'static [u64];
const ATE_LOOP_COUNT_1_IS_NEGATIVE: bool;
const ATE_LOOP_COUNT_2: &'static [i8];
const ATE_LOOP_COUNT_2_IS_NEGATIVE: bool;
const TWIST_TYPE: TwistType;
type Fp: PrimeField + Into<<Self::Fp as PrimeField>::BigInt>;
type Fp3Config: Fp3Config<Fp = Self::Fp>;
type Fp6Config: Fp6Config<Fp3Config = Self::Fp3Config>;
type G1Config: SWCurveConfig<BaseField = Self::Fp>;
type G2Config: SWCurveConfig<
BaseField = Self::Fp,
ScalarField = <Self::G1Config as CurveConfig>::ScalarField,
>;
fn final_exponentiation(f: MillerLoopOutput<BW6<Self>>) -> Option<PairingOutput<BW6<Self>>>;
fn multi_miller_loop(
a: impl IntoIterator<Item = impl Into<G1Prepared<Self>>>,
b: impl IntoIterator<Item = impl Into<G2Prepared<Self>>>,
) -> MillerLoopOutput<BW6<Self>>;
}
pub mod g1;
pub mod g2;
pub use self::{
g1::{G1Affine, G1Prepared, G1Projective},
g2::{G2Affine, G2Prepared, G2Projective},
};
#[derive(Derivative)]
#[derivative(Copy, Clone, PartialEq, Eq, Debug, Hash)]
pub struct BW6<P: BW6Config>(PhantomData<fn() -> P>);
impl<P: BW6Config> Pairing for BW6<P> {
type BaseField = <P::G1Config as CurveConfig>::BaseField;
type ScalarField = <P::G1Config as CurveConfig>::ScalarField;
type G1 = G1Projective<P>;
type G1Affine = G1Affine<P>;
type G1Prepared = G1Prepared<P>;
type G2 = G2Projective<P>;
type G2Affine = G2Affine<P>;
type G2Prepared = G2Prepared<P>;
type TargetField = Fp6<P::Fp6Config>;
fn final_exponentiation(f: MillerLoopOutput<Self>) -> Option<PairingOutput<Self>> {
P::final_exponentiation(f)
}
fn multi_miller_loop(
a: impl IntoIterator<Item = impl Into<Self::G1Prepared>>,
b: impl IntoIterator<Item = impl Into<Self::G2Prepared>>,
) -> MillerLoopOutput<Self> {
P::multi_miller_loop(a, b)
}
}