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go-circom-prover-verifier
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go-circom-prover-verifier/prover/ifft.go

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package prover
import (
"math"
"math/big"
"github.com/iden3/go-circom-prover-verifier/types"
"github.com/iden3/go-iden3-crypto/ff"
)
type rootsT struct {
roots [][]*ff.Element
w []*ff.Element
}
func newRootsT() rootsT {
var roots rootsT
rem := new(big.Int).Sub(types.R, big.NewInt(1))
s := 0
for rem.Bit(0) == 0 { // rem.Bit==0 when even
s++
rem = new(big.Int).Rsh(rem, 1)
}
roots.w = make([]*ff.Element, s+1)
roots.w[s] = ff.NewElement().SetBigInt(fExp(big.NewInt(5), rem))
n := s - 1
for n >= 0 {
roots.w[n] = ff.NewElement().Mul(roots.w[n+1], roots.w[n+1])
n--
}
roots.roots = make([][]*ff.Element, 50) // TODO WIP
roots.setRoots(15)
return roots
}
func (roots rootsT) setRoots(n int) {
for i := n; i >= 0 && nil == roots.roots[i]; i-- { // TODO tmp i<=len(r)
r := ff.NewElement().SetBigInt(big.NewInt(1))
nroots := 1 << i
var rootsi []*ff.Element
for j := 0; j < nroots; j++ {
rootsi = append(rootsi, r)
r = ff.NewElement().Mul(r, roots.w[i])
}
roots.roots[i] = rootsi
}
}
func fftroots(roots rootsT, pall []*ff.Element, bits, offset, step int) []*ff.Element {
n := 1 << bits
if n == 1 {
return []*ff.Element{pall[offset]}
} else if n == 2 {
return []*ff.Element{
ff.NewElement().Add(pall[offset], pall[offset+step]), // TODO tmp
ff.NewElement().Sub(pall[offset], pall[offset+step]),
}
}
ndiv2 := n >> 1
p1 := fftroots(roots, pall, bits-1, offset, step*2)
p2 := fftroots(roots, pall, bits-1, offset+step, step*2)
out := make([]*ff.Element, n)
for i := 0; i < ndiv2; i++ {
out[i] = ff.NewElement().Add(p1[i], ff.NewElement().Mul(roots.roots[bits][i], p2[i]))
out[i+ndiv2] = ff.NewElement().Sub(p1[i], ff.NewElement().Mul(roots.roots[bits][i], p2[i]))
}
return out
}
func fft(p []*ff.Element) []*ff.Element {
if len(p) <= 1 {
return p
}
bits := math.Log2(float64(len(p)-1)) + 1
roots := newRootsT()
roots.setRoots(int(bits))
m := 1 << int(bits)
ep := extend(p, m)
res := fftroots(roots, ep, int(bits), 0, 1)
return res
}
func ifft(p []*ff.Element) []*ff.Element {
res := fft(p)
bits := math.Log2(float64(len(p)-1)) + 1
m := 1 << int(bits)
twoinvm := ff.NewElement().SetBigInt(fInv(fMul(big.NewInt(1), big.NewInt(int64(m)))))
var resn []*ff.Element
for i := 0; i < m; i++ {
resn = append(resn, ff.NewElement().Mul(res[(m-i)%m], twoinvm))
}
return resn
}
func extend(p []*ff.Element, e int) []*ff.Element {
if e == len(p) {
return p
}
z := arrayOfZeroesE(e - len(p))
return append(p, z...)
}