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219 lines
5.0 KiB
219 lines
5.0 KiB
package prover
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import (
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"crypto/rand"
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"math"
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"math/big"
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"runtime"
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"sync"
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bn256 "github.com/ethereum/go-ethereum/crypto/bn256/cloudflare"
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"github.com/iden3/go-circom-prover-verifier/types"
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"github.com/iden3/go-iden3-crypto/utils"
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//"fmt"
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)
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// Group Size
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const (
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GSIZE = 6
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)
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func randBigInt() (*big.Int, error) {
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maxbits := types.R.BitLen()
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b := make([]byte, (maxbits/8)-1)
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_, err := rand.Read(b)
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if err != nil {
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return nil, err
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}
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r := new(big.Int).SetBytes(b)
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rq := new(big.Int).Mod(r, types.R)
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return rq, nil
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}
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// GenerateProof generates the Groth16 zkSNARK proof
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func GenerateProof(pk *types.Pk, w types.Witness) (*types.Proof, []*big.Int, error) {
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var proof types.Proof
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r, err := randBigInt()
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if err != nil {
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return nil, nil, err
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}
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s, err := randBigInt()
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if err != nil {
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return nil, nil, err
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}
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// BEGIN PAR
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numcpu := runtime.NumCPU()
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proofA := arrayOfZeroesG1(numcpu)
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proofB := arrayOfZeroesG2(numcpu)
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proofC := arrayOfZeroesG1(numcpu)
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proofBG1 := arrayOfZeroesG1(numcpu)
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gsize := GSIZE
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var wg1 sync.WaitGroup
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wg1.Add(numcpu)
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for _cpu, _ranges := range ranges(pk.NVars, numcpu) {
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// split 1
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go func(cpu int, ranges [2]int) {
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proofA[cpu] = scalarMultNoDoubleG1(pk.A[ranges[0]:ranges[1]],
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w[ranges[0]:ranges[1]],
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proofA[cpu],
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gsize)
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proofB[cpu] = scalarMultNoDoubleG2(pk.B2[ranges[0]:ranges[1]],
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w[ranges[0]:ranges[1]],
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proofB[cpu],
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gsize)
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proofBG1[cpu] = scalarMultNoDoubleG1(pk.B1[ranges[0]:ranges[1]],
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w[ranges[0]:ranges[1]],
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proofBG1[cpu],
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gsize)
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minLim := pk.NPublic + 1
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if ranges[0] > pk.NPublic+1 {
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minLim = ranges[0]
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}
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if ranges[1] > pk.NPublic+1 {
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proofC[cpu] = scalarMultNoDoubleG1(pk.C[minLim:ranges[1]],
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w[minLim:ranges[1]],
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proofC[cpu],
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gsize)
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}
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wg1.Done()
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}(_cpu, _ranges)
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}
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wg1.Wait()
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// join 1
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for cpu := 1; cpu < numcpu; cpu++ {
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proofA[0].Add(proofA[0], proofA[cpu])
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proofB[0].Add(proofB[0], proofB[cpu])
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proofC[0].Add(proofC[0], proofC[cpu])
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proofBG1[0].Add(proofBG1[0], proofBG1[cpu])
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}
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proof.A = proofA[0]
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proof.B = proofB[0]
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proof.C = proofC[0]
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// END PAR
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h := calculateH(pk, w)
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proof.A.Add(proof.A, pk.VkAlpha1)
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proof.A.Add(proof.A, new(bn256.G1).ScalarMult(pk.VkDelta1, r))
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proof.B.Add(proof.B, pk.VkBeta2)
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proof.B.Add(proof.B, new(bn256.G2).ScalarMult(pk.VkDelta2, s))
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proofBG1[0].Add(proofBG1[0], pk.VkBeta1)
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proofBG1[0].Add(proofBG1[0], new(bn256.G1).ScalarMult(pk.VkDelta1, s))
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proofC = arrayOfZeroesG1(numcpu)
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var wg2 sync.WaitGroup
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wg2.Add(numcpu)
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for _cpu, _ranges := range ranges(len(h), numcpu) {
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// split 2
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go func(cpu int, ranges [2]int) {
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proofC[cpu] = scalarMultNoDoubleG1(pk.HExps[ranges[0]:ranges[1]],
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h[ranges[0]:ranges[1]],
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proofC[cpu],
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gsize)
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wg2.Done()
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}(_cpu, _ranges)
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}
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wg2.Wait()
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// join 2
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for cpu := 1; cpu < numcpu; cpu++ {
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proofC[0].Add(proofC[0], proofC[cpu])
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}
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proof.C.Add(proof.C, proofC[0])
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proof.C.Add(proof.C, new(bn256.G1).ScalarMult(proof.A, s))
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proof.C.Add(proof.C, new(bn256.G1).ScalarMult(proofBG1[0], r))
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rsneg := new(big.Int).Mod(new(big.Int).Neg(new(big.Int).Mul(r, s)), types.R)
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proof.C.Add(proof.C, new(bn256.G1).ScalarMult(pk.VkDelta1, rsneg))
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pubSignals := w[1 : pk.NPublic+1]
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return &proof, pubSignals, nil
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}
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func calculateH(pk *types.Pk, w types.Witness) []*big.Int {
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m := pk.DomainSize
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polAT := arrayOfZeroes(m)
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polBT := arrayOfZeroes(m)
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numcpu := runtime.NumCPU()
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var wg1 sync.WaitGroup
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wg1.Add(2)
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go func() {
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for i := 0; i < pk.NVars; i++ {
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for j := range pk.PolsA[i] {
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polAT[j] = fAdd(polAT[j], fMul(w[i], pk.PolsA[i][j]))
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}
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}
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wg1.Done()
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}()
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go func() {
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for i := 0; i < pk.NVars; i++ {
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for j := range pk.PolsB[i] {
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polBT[j] = fAdd(polBT[j], fMul(w[i], pk.PolsB[i][j]))
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}
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}
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wg1.Done()
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}()
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wg1.Wait()
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polATe := utils.BigIntArrayToElementArray(polAT)
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polBTe := utils.BigIntArrayToElementArray(polBT)
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polASe := ifft(polATe)
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polBSe := ifft(polBTe)
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r := int(math.Log2(float64(m))) + 1
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roots := newRootsT()
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roots.setRoots(r)
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var wg2 sync.WaitGroup
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wg2.Add(numcpu)
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for _cpu, _ranges := range ranges(len(polASe), numcpu) {
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go func(cpu int, ranges [2]int) {
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for i := ranges[0]; i < ranges[1]; i++ {
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polASe[i].Mul(polASe[i], roots.roots[r][i])
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polBSe[i].Mul(polBSe[i], roots.roots[r][i])
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}
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wg2.Done()
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}(_cpu, _ranges)
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}
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wg2.Wait()
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polATodd := fft(polASe)
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polBTodd := fft(polBSe)
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polABT := arrayOfZeroesE(len(polASe) * 2)
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var wg3 sync.WaitGroup
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wg3.Add(numcpu)
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for _cpu, _ranges := range ranges(len(polASe), numcpu) {
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go func(cpu int, ranges [2]int) {
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for i := ranges[0]; i < ranges[1]; i++ {
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polABT[2*i].Mul(polATe[i], polBTe[i])
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polABT[2*i+1].Mul(polATodd[i], polBTodd[i])
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}
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wg3.Done()
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}(_cpu, _ranges)
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}
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wg3.Wait()
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hSeFull := ifft(polABT)
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hSe := hSeFull[m:]
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return utils.ElementArrayToBigIntArray(hSe)
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}
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func ranges(n, parts int) [][2]int {
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s := make([][2]int, parts)
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p := float64(n) / float64(parts)
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for i := 0; i < parts; i++ {
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a, b := int(float64(i)*p), int(float64(i+1)*p)
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s[i] = [2]int{a, b}
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}
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return s
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}
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