package fields
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import (
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"bytes"
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"math/big"
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)
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// Fq12 uses the same algorithms than Fq2, but with [2][3][2]*big.Int data structure
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// Fq12 is Field 12
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type Fq12 struct {
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F Fq6
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Fq2 Fq2
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NonResidue [2]*big.Int
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}
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// NewFq12 generates a new Fq12
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func NewFq12(f Fq6, fq2 Fq2, nonResidue [2]*big.Int) Fq12 {
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fq12 := Fq12{
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f,
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fq2,
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nonResidue,
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}
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return fq12
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}
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// Zero returns a Zero value on the Fq12
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func (fq12 Fq12) Zero() [2][3][2]*big.Int {
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return [2][3][2]*big.Int{fq12.F.Zero(), fq12.F.Zero()}
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}
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// One returns a One value on the Fq12
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func (fq12 Fq12) One() [2][3][2]*big.Int {
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return [2][3][2]*big.Int{fq12.F.One(), fq12.F.Zero()}
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}
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func (fq12 Fq12) mulByNonResidue(a [3][2]*big.Int) [3][2]*big.Int {
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return [3][2]*big.Int{
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fq12.Fq2.Mul(fq12.NonResidue, a[2]),
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a[0],
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a[1],
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}
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}
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// Add performs an addition on the Fq12
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func (fq12 Fq12) Add(a, b [2][3][2]*big.Int) [2][3][2]*big.Int {
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return [2][3][2]*big.Int{
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fq12.F.Add(a[0], b[0]),
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fq12.F.Add(a[1], b[1]),
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}
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}
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// Double performs a doubling on the Fq12
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func (fq12 Fq12) Double(a [2][3][2]*big.Int) [2][3][2]*big.Int {
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return fq12.Add(a, a)
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}
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// Sub performs a subtraction on the Fq12
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func (fq12 Fq12) Sub(a, b [2][3][2]*big.Int) [2][3][2]*big.Int {
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return [2][3][2]*big.Int{
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fq12.F.Sub(a[0], b[0]),
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fq12.F.Sub(a[1], b[1]),
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}
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}
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// Neg performs a negation on the Fq12
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func (fq12 Fq12) Neg(a [2][3][2]*big.Int) [2][3][2]*big.Int {
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return fq12.Sub(fq12.Zero(), a)
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}
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// Mul performs a multiplication on the Fq12
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func (fq12 Fq12) Mul(a, b [2][3][2]*big.Int) [2][3][2]*big.Int {
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// Multiplication and Squaring on Pairing-Friendly .pdf; Section 3 (Karatsuba)
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v0 := fq12.F.Mul(a[0], b[0])
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v1 := fq12.F.Mul(a[1], b[1])
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return [2][3][2]*big.Int{
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fq12.F.Add(v0, fq12.mulByNonResidue(v1)),
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fq12.F.Sub(
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fq12.F.Mul(
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fq12.F.Add(a[0], a[1]),
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fq12.F.Add(b[0], b[1])),
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fq12.F.Add(v0, v1)),
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}
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}
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// MulScalar is ...
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func (fq12 Fq12) MulScalar(base [2][3][2]*big.Int, e *big.Int) [2][3][2]*big.Int {
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// for more possible implementations see g2.go file, at the function g2.MulScalar()
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res := fq12.Zero()
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rem := e
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exp := base
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for !bytes.Equal(rem.Bytes(), big.NewInt(int64(0)).Bytes()) {
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// if rem % 2 == 1
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if bytes.Equal(new(big.Int).Rem(rem, big.NewInt(int64(2))).Bytes(), big.NewInt(int64(1)).Bytes()) {
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res = fq12.Add(res, exp)
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}
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exp = fq12.Double(exp)
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rem = rem.Rsh(rem, 1) // rem = rem >> 1
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}
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return res
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}
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// Inverse returns the inverse on the Fq12
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func (fq12 Fq12) Inverse(a [2][3][2]*big.Int) [2][3][2]*big.Int {
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t0 := fq12.F.Square(a[0])
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t1 := fq12.F.Square(a[1])
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t2 := fq12.F.Sub(t0, fq12.mulByNonResidue(t1))
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t3 := fq12.F.Inverse(t2)
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return [2][3][2]*big.Int{
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fq12.F.Mul(a[0], t3),
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fq12.F.Neg(fq12.F.Mul(a[1], t3)),
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}
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}
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// Div performs a division on the Fq12
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func (fq12 Fq12) Div(a, b [2][3][2]*big.Int) [2][3][2]*big.Int {
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return fq12.Mul(a, fq12.Inverse(b))
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}
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// Square performs a square operation on the Fq12
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func (fq12 Fq12) Square(a [2][3][2]*big.Int) [2][3][2]*big.Int {
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ab := fq12.F.Mul(a[0], a[1])
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return [2][3][2]*big.Int{
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fq12.F.Sub(
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fq12.F.Mul(
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fq12.F.Add(a[0], a[1]),
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fq12.F.Add(
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a[0],
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fq12.mulByNonResidue(a[1]))),
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fq12.F.Add(
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ab,
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fq12.mulByNonResidue(ab))),
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fq12.F.Add(ab, ab),
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}
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}
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// Exp is ...
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func (fq12 Fq12) Exp(base [2][3][2]*big.Int, e *big.Int) [2][3][2]*big.Int {
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// TODO fix bottleneck
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res := fq12.One()
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rem := fq12.Fq2.F.Copy(e)
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exp := base
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// before := time.Now()
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for !bytes.Equal(rem.Bytes(), big.NewInt(int64(0)).Bytes()) {
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if BigIsOdd(rem) {
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res = fq12.Mul(res, exp)
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}
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exp = fq12.Square(exp)
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rem = new(big.Int).Rsh(rem, 1)
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}
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// fmt.Println("time elapsed:", time.Since(before))
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return res
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}
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// Affine is ...
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func (fq12 Fq12) Affine(a [2][3][2]*big.Int) [2][3][2]*big.Int {
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return [2][3][2]*big.Int{
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fq12.F.Affine(a[0]),
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fq12.F.Affine(a[1]),
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}
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}
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// Equal is ...
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func (fq12 Fq12) Equal(a, b [2][3][2]*big.Int) bool {
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return fq12.F.Equal(a[0], b[0]) && fq12.F.Equal(a[1], b[1])
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}
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