forked from cerc-io/plugeth
253 lines
4.9 KiB
Go
253 lines
4.9 KiB
Go
// Copyright 2020 The go-ethereum Authors
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// This file is part of the go-ethereum library.
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//
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// The go-ethereum library is free software: you can redistribute it and/or modify
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// it under the terms of the GNU Lesser General Public License as published by
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// the Free Software Foundation, either version 3 of the License, or
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// (at your option) any later version.
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//
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// The go-ethereum library is distributed in the hope that it will be useful,
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// but WITHOUT ANY WARRANTY; without even the implied warranty of
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// MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
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// GNU Lesser General Public License for more details.
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//
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// You should have received a copy of the GNU Lesser General Public License
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// along with the go-ethereum library. If not, see <http://www.gnu.org/licenses/>.
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package bls12381
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import (
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"errors"
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"math/big"
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)
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type fp2Temp struct {
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t [4]*fe
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}
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type fp2 struct {
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fp2Temp
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}
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func newFp2Temp() fp2Temp {
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t := [4]*fe{}
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for i := 0; i < len(t); i++ {
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t[i] = &fe{}
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}
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return fp2Temp{t}
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}
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func newFp2() *fp2 {
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t := newFp2Temp()
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return &fp2{t}
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}
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func (e *fp2) fromBytes(in []byte) (*fe2, error) {
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if len(in) != 96 {
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return nil, errors.New("length of input string should be 96 bytes")
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}
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c1, err := fromBytes(in[:48])
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if err != nil {
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return nil, err
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}
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c0, err := fromBytes(in[48:])
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if err != nil {
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return nil, err
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}
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return &fe2{*c0, *c1}, nil
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}
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func (e *fp2) toBytes(a *fe2) []byte {
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out := make([]byte, 96)
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copy(out[:48], toBytes(&a[1]))
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copy(out[48:], toBytes(&a[0]))
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return out
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}
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func (e *fp2) new() *fe2 {
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return new(fe2).zero()
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}
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func (e *fp2) zero() *fe2 {
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return new(fe2).zero()
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}
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func (e *fp2) one() *fe2 {
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return new(fe2).one()
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}
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func (e *fp2) add(c, a, b *fe2) {
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add(&c[0], &a[0], &b[0])
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add(&c[1], &a[1], &b[1])
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}
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func (e *fp2) addAssign(a, b *fe2) {
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addAssign(&a[0], &b[0])
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addAssign(&a[1], &b[1])
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}
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func (e *fp2) ladd(c, a, b *fe2) {
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ladd(&c[0], &a[0], &b[0])
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ladd(&c[1], &a[1], &b[1])
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}
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func (e *fp2) double(c, a *fe2) {
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double(&c[0], &a[0])
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double(&c[1], &a[1])
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}
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func (e *fp2) doubleAssign(a *fe2) {
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doubleAssign(&a[0])
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doubleAssign(&a[1])
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}
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func (e *fp2) ldouble(c, a *fe2) {
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ldouble(&c[0], &a[0])
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ldouble(&c[1], &a[1])
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}
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func (e *fp2) sub(c, a, b *fe2) {
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sub(&c[0], &a[0], &b[0])
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sub(&c[1], &a[1], &b[1])
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}
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func (e *fp2) subAssign(c, a *fe2) {
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subAssign(&c[0], &a[0])
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subAssign(&c[1], &a[1])
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}
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func (e *fp2) neg(c, a *fe2) {
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neg(&c[0], &a[0])
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neg(&c[1], &a[1])
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}
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func (e *fp2) mul(c, a, b *fe2) {
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t := e.t
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mul(t[1], &a[0], &b[0])
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mul(t[2], &a[1], &b[1])
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add(t[0], &a[0], &a[1])
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add(t[3], &b[0], &b[1])
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sub(&c[0], t[1], t[2])
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addAssign(t[1], t[2])
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mul(t[0], t[0], t[3])
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sub(&c[1], t[0], t[1])
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}
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func (e *fp2) mulAssign(a, b *fe2) {
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t := e.t
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mul(t[1], &a[0], &b[0])
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mul(t[2], &a[1], &b[1])
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add(t[0], &a[0], &a[1])
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add(t[3], &b[0], &b[1])
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sub(&a[0], t[1], t[2])
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addAssign(t[1], t[2])
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mul(t[0], t[0], t[3])
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sub(&a[1], t[0], t[1])
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}
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func (e *fp2) square(c, a *fe2) {
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t := e.t
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ladd(t[0], &a[0], &a[1])
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sub(t[1], &a[0], &a[1])
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ldouble(t[2], &a[0])
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mul(&c[0], t[0], t[1])
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mul(&c[1], t[2], &a[1])
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}
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func (e *fp2) squareAssign(a *fe2) {
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t := e.t
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ladd(t[0], &a[0], &a[1])
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sub(t[1], &a[0], &a[1])
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ldouble(t[2], &a[0])
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mul(&a[0], t[0], t[1])
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mul(&a[1], t[2], &a[1])
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}
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func (e *fp2) mulByNonResidue(c, a *fe2) {
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t := e.t
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sub(t[0], &a[0], &a[1])
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add(&c[1], &a[0], &a[1])
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c[0].set(t[0])
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}
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func (e *fp2) mulByB(c, a *fe2) {
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t := e.t
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double(t[0], &a[0])
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double(t[1], &a[1])
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doubleAssign(t[0])
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doubleAssign(t[1])
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sub(&c[0], t[0], t[1])
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add(&c[1], t[0], t[1])
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}
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func (e *fp2) inverse(c, a *fe2) {
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t := e.t
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square(t[0], &a[0])
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square(t[1], &a[1])
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addAssign(t[0], t[1])
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inverse(t[0], t[0])
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mul(&c[0], &a[0], t[0])
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mul(t[0], t[0], &a[1])
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neg(&c[1], t[0])
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}
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func (e *fp2) mulByFq(c, a *fe2, b *fe) {
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mul(&c[0], &a[0], b)
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mul(&c[1], &a[1], b)
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}
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func (e *fp2) exp(c, a *fe2, s *big.Int) {
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z := e.one()
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for i := s.BitLen() - 1; i >= 0; i-- {
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e.square(z, z)
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if s.Bit(i) == 1 {
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e.mul(z, z, a)
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}
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}
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c.set(z)
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}
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func (e *fp2) frobeniusMap(c, a *fe2, power uint) {
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c[0].set(&a[0])
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if power%2 == 1 {
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neg(&c[1], &a[1])
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return
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}
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c[1].set(&a[1])
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}
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func (e *fp2) frobeniusMapAssign(a *fe2, power uint) {
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if power%2 == 1 {
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neg(&a[1], &a[1])
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return
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}
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}
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func (e *fp2) sqrt(c, a *fe2) bool {
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u, x0, a1, alpha := &fe2{}, &fe2{}, &fe2{}, &fe2{}
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u.set(a)
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e.exp(a1, a, pMinus3Over4)
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e.square(alpha, a1)
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e.mul(alpha, alpha, a)
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e.mul(x0, a1, a)
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if alpha.equal(negativeOne2) {
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neg(&c[0], &x0[1])
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c[1].set(&x0[0])
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return true
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}
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e.add(alpha, alpha, e.one())
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e.exp(alpha, alpha, pMinus1Over2)
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e.mul(c, alpha, x0)
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e.square(alpha, c)
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return alpha.equal(u)
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}
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func (e *fp2) isQuadraticNonResidue(a *fe2) bool {
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// https://github.com/leovt/constructible/wiki/Taking-Square-Roots-in-quadratic-extension-Fields
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c0, c1 := new(fe), new(fe)
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square(c0, &a[0])
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square(c1, &a[1])
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add(c1, c1, c0)
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return isQuadraticNonResidue(c1)
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}
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