mirror of
https://source.quilibrium.com/quilibrium/ceremonyclient.git
synced 2024-12-27 17:15:18 +00:00
267 lines
5.4 KiB
Go
267 lines
5.4 KiB
Go
package kzg
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import (
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"math/big"
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"github.com/pkg/errors"
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"source.quilibrium.com/quilibrium/monorepo/nekryptology/pkg/core/curves"
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)
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func recurseFFT(
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values []curves.PairingScalar,
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offset uint64,
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stride uint64,
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rootsStride uint64,
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out []curves.PairingScalar,
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fftWidth uint64,
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inverse bool,
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) {
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roots := RootsOfUnityBLS48581
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if inverse {
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roots = ReverseRootsOfUnityBLS48581
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}
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if len(out) <= 16 {
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l := uint64(len(out))
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for i := uint64(0); i < l; i++ {
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last := values[offset].Mul(roots[fftWidth][0])
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for j := uint64(1); j < l; j++ {
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last = last.Add(values[offset+j*stride].Mul(
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roots[fftWidth][((i*j)%l)*rootsStride],
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))
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}
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out[i] = last.(curves.PairingScalar)
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}
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return
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}
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half := uint64(len(out)) >> 1
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// slide to the left
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recurseFFT(
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values,
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offset,
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stride<<1,
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rootsStride<<1,
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out[:half],
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fftWidth,
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inverse,
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)
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// slide to the right
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recurseFFT(
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values,
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offset+stride,
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stride<<1,
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rootsStride<<1,
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out[half:],
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fftWidth,
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inverse,
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)
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// cha cha now, y'all
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for i := uint64(0); i < half; i++ {
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mul := out[i+half].Mul(
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roots[fftWidth][i*rootsStride],
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).(curves.PairingScalar)
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mulAdd := out[i].Add(mul).(curves.PairingScalar)
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out[i+half] = out[i].Sub(mul).(curves.PairingScalar)
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out[i] = mulAdd
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}
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}
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func FFT(
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values []curves.PairingScalar,
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curve curves.PairingCurve,
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fftWidth uint64,
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inverse bool,
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) ([]curves.PairingScalar, error) {
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width := uint64(len(values))
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if width > fftWidth {
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return nil, errors.New("invalid width of values")
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}
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if width&(width-1) != 0 {
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width = nearestPowerOfTwo(width)
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}
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// We make a copy so we can mutate it during the work.
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workingValues := make([]curves.PairingScalar, width)
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for i := 0; i < len(values); i++ {
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workingValue := values[i].Clone()
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workingValues[i] = workingValue.(curves.PairingScalar)
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}
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for i := uint64(len(values)); i < width; i++ {
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workingValue, err := curve.NewScalar().SetBigInt(
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big.NewInt(0),
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)
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if err != nil {
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return nil, errors.Wrap(err, "invalid scalar")
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}
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workingValues[i] = workingValue.(curves.PairingScalar)
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}
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out := make([]curves.PairingScalar, width)
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stride := fftWidth / width
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for i := 0; i < len(out); i++ {
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out[i] = curve.NewScalar()
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}
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if inverse {
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invLen, err := curve.NewScalar().SetBigInt(big.NewInt((int64(width))))
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if err != nil {
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return nil, errors.Wrap(err, "invalid int")
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}
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inv, err := invLen.Invert()
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if err != nil {
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return nil, errors.Wrap(err, "could not invert")
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}
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invLen = inv.(curves.PairingScalar)
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recurseFFT(workingValues, 0, 1, stride, out, fftWidth, inverse)
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for i := 0; i < len(out); i++ {
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out[i] = out[i].Mul(invLen).(curves.PairingScalar)
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}
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return out, nil
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} else {
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recurseFFT(workingValues, 0, 1, stride, out, fftWidth, inverse)
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return out, nil
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}
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}
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func recurseFFTG1(
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values []curves.PairingPoint,
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offset uint64,
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stride uint64,
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rootsStride uint64,
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out []curves.PairingPoint,
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fftWidth uint64,
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inverse bool,
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) {
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roots := RootsOfUnityBLS48581
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if inverse {
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roots = ReverseRootsOfUnityBLS48581
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}
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if len(out) <= 16 {
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l := uint64(len(out))
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for i := uint64(0); i < l; i++ {
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last := values[offset].Mul(roots[fftWidth][0])
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for j := uint64(1); j < l; j++ {
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last = last.Add(values[offset+j*stride].Mul(
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roots[fftWidth][((i*j)%l)*rootsStride],
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))
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}
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out[i] = last.(curves.PairingPoint)
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}
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return
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}
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half := uint64(len(out)) >> 1
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// slide to the left
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recurseFFTG1(
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values,
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offset,
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stride<<1,
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rootsStride<<1,
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out[:half],
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fftWidth,
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inverse,
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)
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// slide to the right
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recurseFFTG1(
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values,
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offset+stride,
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stride<<1,
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rootsStride<<1,
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out[half:],
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fftWidth,
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inverse,
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)
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// cha cha now, y'all
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for i := uint64(0); i < half; i++ {
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mul := out[i+half].Mul(roots[fftWidth][i*rootsStride]).(curves.PairingPoint)
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mulAdd := out[i].Add(mul).(curves.PairingPoint)
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out[i+half] = out[i].Sub(mul).(curves.PairingPoint)
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out[i] = mulAdd
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}
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}
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func FFTG1(
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values []curves.PairingPoint,
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curve curves.PairingCurve,
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fftWidth uint64,
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inverse bool,
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) ([]curves.PairingPoint, error) {
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width := uint64(len(values))
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if width > fftWidth {
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return nil, errors.New("invalid width of values")
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}
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if width&(width-1) != 0 {
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width = nearestPowerOfTwo(width)
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}
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workingValues := make([]curves.PairingPoint, width)
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for i := 0; i < len(values); i++ {
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workingValue, err := curve.NewG1GeneratorPoint().FromAffineCompressed(
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values[i].ToAffineCompressed(),
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)
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if err != nil {
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return nil, errors.Wrap(err, "invalid point")
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}
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workingValues[i] = workingValue.(curves.PairingPoint)
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}
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for i := uint64(len(values)); i < width; i++ {
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workingValues[i] = curve.NewG1IdentityPoint()
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}
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out := make([]curves.PairingPoint, width)
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stride := fftWidth / width
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for i := 0; i < len(out); i++ {
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out[i] = curve.NewG1IdentityPoint()
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}
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if inverse {
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invLen, err := curve.NewScalar().SetBigInt(big.NewInt((int64(width))))
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if err != nil {
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return nil, errors.Wrap(err, "invalid int")
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}
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inv, err := invLen.Invert()
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if err != nil {
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return nil, errors.Wrap(err, "could not invert")
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}
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invLen = inv.(curves.PairingScalar)
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recurseFFTG1(workingValues, 0, 1, stride, out, fftWidth, inverse)
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for i := 0; i < len(out); i++ {
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out[i] = out[i].Mul(invLen).(curves.PairingPoint)
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}
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return out, nil
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} else {
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recurseFFTG1(workingValues, 0, 1, stride, out, fftWidth, inverse)
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return out, nil
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}
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}
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func nearestPowerOfTwo(number uint64) uint64 {
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power := uint64(1)
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for number > power {
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power = power << 1
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}
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return power
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}
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