Fix setting node version in workflow

2026-02-07 11:26:44 +01:00 · 2020-04-28 15:14:30 +02:00
18 changed files with 101 additions and 2424 deletions
--- a/.github/workflows/main.yml
+++ b/.github/workflows/main.yml
@@ -18,6 +18,10 @@ jobs:
      uses: actions/setup-node@v1
      with: 
        node-version: '10.x'
    - name: Install circom
      run: npm install -g circom
    - name: Install snarkjs
      run: npm install -g snarkjs
    - name: Checkout code
      uses: actions/checkout@v2
    - name: Compile circuits and execute Go tests
--- a/.gitignore
+++ b/.gitignore
@@ -4,6 +4,5 @@ testdata/*/*.cpp
 testdata/*/*.sym
 testdata/*/*.r1cs
 testdata/*/*.sol
 testdata/*/*.bin
 !testdata/*/inputs.json
 cli/*.json
--- a/README.md
+++ b/README.md
@@ -1,6 +1,6 @@
 # go-circom-prover-verifier [![GoDoc](https://godoc.org/github.com/iden3/go-circom-prover-verifier?status.svg)](https://godoc.org/github.com/iden3/go-circom-prover-verifier) [![Go Report Card](https://goreportcard.com/badge/github.com/iden3/go-circom-prover-verifier)](https://goreportcard.com/report/github.com/iden3/go-circom-prover-verifier) [![Test](https://github.com/iden3/go-circom-prover-verifier/workflows/Test/badge.svg)](https://github.com/iden3/go-circom-prover-verifier/actions?query=workflow%3ATest)
-Go implementation of the [Groth16 protocol](https://eprint.iacr.org/2016/260.pdf) zkSNARK prover & verifier compatible with [circom](https://github.com/iden3/circom).
+Experimental Go implementation of the [Groth16 protocol](https://eprint.iacr.org/2016/260.pdf) zkSNARK prover & verifier compatible with [circom](https://github.com/iden3/circom).
 Using [bn256](https://github.com/ethereum/go-ethereum/tree/master/crypto/bn256/cloudflare) (used by [go-ethereum](https://github.com/ethereum/go-ethereum)) for the Pairing curve operations.
@@ -82,9 +82,9 @@ Usage of /tmp/go-build620318239/b001/exe/cli:
 - Prove
 ```
-> go run cli.go -prove -provingkey=../testdata/circuit5k/proving_key.json -witness=../testdata/circuit5k/witness.json
+> go run cli.go -prove -provingkey=../testdata/small/proving_key.json -witness=../testdata/small/witness.json
 ```
 - Verify
 ```
-> go run cli.go -verify -verificationkey=../testdata/circuit5k/verification_key.json
+> go run cli.go -verify -verificationkey=../testdata/small/verification_key.json
 ```
--- a/cli/cli.go
+++ b/cli/cli.go
@@ -5,7 +5,6 @@ import (
 	"flag"
 	"fmt"
 	"io/ioutil"
 	"os"
 	"time"
 	"github.com/iden3/go-circom-prover-verifier/parsers"
@@ -35,15 +34,15 @@ func main() {
 		if err != nil {
 			fmt.Println("Error:", err)
 		}
-		os.Exit(0)
+		return
 	} else if *verify {
 		err := cmdVerify(*proofPath, *verificationKeyPath, *publicPath)
 		if err != nil {
 			fmt.Println("Error:", err)
 		}
-		os.Exit(0)
+		return
 	}
-	flag.PrintDefaults()
+	fmt.Println("use -help for the list of commands")
 }
 func cmdProve(provingKeyPath, witnessPath, proofPath, publicPath string) error {
--- a/parsers/parsers.go
+++ b/parsers/parsers.go
@@ -1,15 +1,11 @@
 package parsers
 import (
 	"bufio"
 	"bytes"
 	"encoding/binary"
 	"encoding/hex"
 	"encoding/json"
 	"fmt"
 	"io"
 	"math/big"
 	"os"
 	"strconv"
 	"strings"
@@ -468,35 +464,8 @@ func stringToG2(h [][]string) (*bn256.G2, error) {
 	return p, err
 }
-// ProofStringToSmartContractFormat converts the ProofString to a ProofString in the SmartContract format in a ProofString structure
+// ProofToJson outputs the Proof i Json format
-func ProofStringToSmartContractFormat(s ProofString) ProofString {
+func ProofToJson(p *types.Proof) ([]byte, error) {
 	var rs ProofString
 	rs.A = make([]string, 2)
 	rs.B = make([][]string, 2)
 	rs.B[0] = make([]string, 2)
 	rs.B[1] = make([]string, 2)
 	rs.C = make([]string, 2)
 	rs.A[0] = s.A[0]
 	rs.A[1] = s.A[1]
 	rs.B[0][0] = s.B[0][1]
 	rs.B[0][1] = s.B[0][0]
 	rs.B[1][0] = s.B[1][1]
 	rs.B[1][1] = s.B[1][0]
 	rs.C[0] = s.C[0]
 	rs.C[1] = s.C[1]
 	rs.Protocol = s.Protocol
 	return rs
 }
 // ProofToSmartContractFormat converts the *types.Proof to a ProofString in the SmartContract format in a ProofString structure
 func ProofToSmartContractFormat(p *types.Proof) ProofString {
 	s := ProofToString(p)
 	return ProofStringToSmartContractFormat(s)
 }
 // ProofToString converts the Proof to ProofString
 func ProofToString(p *types.Proof) ProofString {
 	var ps ProofString
 	ps.A = make([]string, 3)
 	ps.B = make([][]string, 3)
@@ -525,443 +494,5 @@ func ProofToString(p *types.Proof) ProofString {
 	ps.Protocol = "groth"
 	return ps
 }
 // ProofToJson outputs the Proof i Json format
 func ProofToJson(p *types.Proof) ([]byte, error) {
 	ps := ProofToString(p)
 	return json.Marshal(ps)
 }
 // ProofToHex converts the Proof to ProofString with hexadecimal strings
 func ProofToHex(p *types.Proof) ProofString {
 	var ps ProofString
 	ps.A = make([]string, 3)
 	ps.B = make([][]string, 3)
 	ps.B[0] = make([]string, 2)
 	ps.B[1] = make([]string, 2)
 	ps.B[2] = make([]string, 2)
 	ps.C = make([]string, 3)
 	a := p.A.Marshal()
 	ps.A[0] = "0x" + hex.EncodeToString(new(big.Int).SetBytes(a[:32]).Bytes())
 	ps.A[1] = "0x" + hex.EncodeToString(new(big.Int).SetBytes(a[32:64]).Bytes())
 	ps.A[2] = "1"
 	b := p.B.Marshal()
 	ps.B[0][1] = "0x" + hex.EncodeToString(new(big.Int).SetBytes(b[:32]).Bytes())
 	ps.B[0][0] = "0x" + hex.EncodeToString(new(big.Int).SetBytes(b[32:64]).Bytes())
 	ps.B[1][1] = "0x" + hex.EncodeToString(new(big.Int).SetBytes(b[64:96]).Bytes())
 	ps.B[1][0] = "0x" + hex.EncodeToString(new(big.Int).SetBytes(b[96:128]).Bytes())
 	ps.B[2][0] = "1"
 	ps.B[2][1] = "0"
 	c := p.C.Marshal()
 	ps.C[0] = "0x" + hex.EncodeToString(new(big.Int).SetBytes(c[:32]).Bytes())
 	ps.C[1] = "0x" + hex.EncodeToString(new(big.Int).SetBytes(c[32:64]).Bytes())
 	ps.C[2] = "1"
 	ps.Protocol = "groth"
 	return ps
 }
 // ProofToJsonHex outputs the Proof i Json format with hexadecimal strings
 func ProofToJsonHex(p *types.Proof) ([]byte, error) {
 	ps := ProofToHex(p)
 	return json.Marshal(ps)
 }
 // ParseWitnessBin parses binary file representation of the Witness into the Witness struct
 func ParseWitnessBin(f *os.File) (types.Witness, error) {
 	var w types.Witness
 	r := bufio.NewReader(f)
 	for {
 		b := make([]byte, 32)
 		n, err := r.Read(b)
 		if err == io.EOF {
 			return w, nil
 		} else if err != nil {
 			return nil, err
 		}
 		if n != 32 {
 			return nil, fmt.Errorf("error on value format, expected 32 bytes, got %v", n)
 		}
 		w = append(w, new(big.Int).SetBytes(swapEndianness(b[0:32])))
 	}
 }
 // swapEndianness swaps the order of the bytes in the slice.
 func swapEndianness(b []byte) []byte {
 	o := make([]byte, len(b))
 	for i := range b {
 		o[len(b)-1-i] = b[i]
 	}
 	return o
 }
 func readNBytes(r io.Reader, n int) ([]byte, error) {
 	b := make([]byte, n)
 	_, err := io.ReadFull(r, b)
 	if err != nil {
 		return b, err
 	}
 	return b, nil
 }
 // ParsePkBin parses binary file representation of the ProvingKey into the ProvingKey struct
 func ParsePkBin(f *os.File) (*types.Pk, error) {
 	o := 0
 	var pk types.Pk
 	r := bufio.NewReader(f)
 	b, err := readNBytes(r, 12)
 	if err != nil {
 		return nil, err
 	}
 	pk.NVars = int(binary.LittleEndian.Uint32(b[:4]))
 	pk.NPublic = int(binary.LittleEndian.Uint32(b[4:8]))
 	pk.DomainSize = int(binary.LittleEndian.Uint32(b[8:12]))
 	o += 12
 	b, err = readNBytes(r, 8)
 	if err != nil {
 		return nil, err
 	}
 	pPolsA := int(binary.LittleEndian.Uint32(b[:4]))
 	pPolsB := int(binary.LittleEndian.Uint32(b[4:8]))
 	o += 8
 	b, err = readNBytes(r, 20)
 	if err != nil {
 		return nil, err
 	}
 	pPointsA := int(binary.LittleEndian.Uint32(b[:4]))
 	pPointsB1 := int(binary.LittleEndian.Uint32(b[4:8]))
 	pPointsB2 := int(binary.LittleEndian.Uint32(b[8:12]))
 	pPointsC := int(binary.LittleEndian.Uint32(b[12:16]))
 	pPointsHExps := int(binary.LittleEndian.Uint32(b[16:20]))
 	o += 20
 	b, err = readNBytes(r, 64)
 	if err != nil {
 		return nil, err
 	}
 	pk.VkAlpha1 = new(bn256.G1)
 	_, err = pk.VkAlpha1.Unmarshal(fromMont1Q(b))
 	if err != nil {
 		return nil, err
 	}
 	b, err = readNBytes(r, 64)
 	if err != nil {
 		return nil, err
 	}
 	pk.VkBeta1 = new(bn256.G1)
 	_, err = pk.VkBeta1.Unmarshal(fromMont1Q(b))
 	if err != nil {
 		return nil, err
 	}
 	b, err = readNBytes(r, 64)
 	if err != nil {
 		return nil, err
 	}
 	pk.VkDelta1 = new(bn256.G1)
 	_, err = pk.VkDelta1.Unmarshal(fromMont1Q(b))
 	if err != nil {
 		return nil, err
 	}
 	b, err = readNBytes(r, 128)
 	if err != nil {
 		return nil, err
 	}
 	pk.VkBeta2 = new(bn256.G2)
 	_, err = pk.VkBeta2.Unmarshal(fromMont2Q(b))
 	if err != nil {
 		return nil, err
 	}
 	b, err = readNBytes(r, 128)
 	if err != nil {
 		return nil, err
 	}
 	pk.VkDelta2 = new(bn256.G2)
 	_, err = pk.VkDelta2.Unmarshal(fromMont2Q(b))
 	if err != nil {
 		return nil, err
 	}
 	o += 448
 	if o != pPolsA {
 		return nil, fmt.Errorf("Unexpected offset, expected: %v, actual: %v", pPolsA, o)
 	}
 	// PolsA
 	for i := 0; i < pk.NVars; i++ {
 		b, err = readNBytes(r, 4)
 		if err != nil {
 			return nil, err
 		}
 		keysLength := int(binary.LittleEndian.Uint32(b[:4]))
 		o += 4
 		polsMap := make(map[int]*big.Int)
 		for j := 0; j < keysLength; j++ {
 			bK, err := readNBytes(r, 4)
 			if err != nil {
 				return nil, err
 			}
 			key := int(binary.LittleEndian.Uint32(bK[:4]))
 			o += 4
 			b, err := readNBytes(r, 32)
 			if err != nil {
 				return nil, err
 			}
 			polsMap[key] = new(big.Int).SetBytes(fromMont1R(b[:32]))
 			o += 32
 		}
 		pk.PolsA = append(pk.PolsA, polsMap)
 	}
 	if o != pPolsB {
 		return nil, fmt.Errorf("Unexpected offset, expected: %v, actual: %v", pPolsB, o)
 	}
 	// PolsB
 	for i := 0; i < pk.NVars; i++ {
 		b, err = readNBytes(r, 4)
 		if err != nil {
 			return nil, err
 		}
 		keysLength := int(binary.LittleEndian.Uint32(b[:4]))
 		o += 4
 		polsMap := make(map[int]*big.Int)
 		for j := 0; j < keysLength; j++ {
 			bK, err := readNBytes(r, 4)
 			if err != nil {
 				return nil, err
 			}
 			key := int(binary.LittleEndian.Uint32(bK[:4]))
 			o += 4
 			b, err := readNBytes(r, 32)
 			if err != nil {
 				return nil, err
 			}
 			polsMap[key] = new(big.Int).SetBytes(fromMont1R(b[:32]))
 			o += 32
 		}
 		pk.PolsB = append(pk.PolsB, polsMap)
 	}
 	if o != pPointsA {
 		return nil, fmt.Errorf("Unexpected offset, expected: %v, actual: %v", pPointsA, o)
 	}
 	// A
 	for i := 0; i < pk.NVars; i++ {
 		b, err = readNBytes(r, 64)
 		if err != nil {
 			return nil, err
 		}
 		p1 := new(bn256.G1)
 		_, err = p1.Unmarshal(fromMont1Q(b))
 		if err != nil {
 			return nil, err
 		}
 		pk.A = append(pk.A, p1)
 		o += 64
 	}
 	if o != pPointsB1 {
 		return nil, fmt.Errorf("Unexpected offset, expected: %v, actual: %v", pPointsB1, o)
 	}
 	// B1
 	for i := 0; i < pk.NVars; i++ {
 		b, err = readNBytes(r, 64)
 		if err != nil {
 			return nil, err
 		}
 		p1 := new(bn256.G1)
 		_, err = p1.Unmarshal(fromMont1Q(b))
 		if err != nil {
 			return nil, err
 		}
 		pk.B1 = append(pk.B1, p1)
 		o += 64
 	}
 	if o != pPointsB2 {
 		return nil, fmt.Errorf("Unexpected offset, expected: %v, actual: %v", pPointsB2, o)
 	}
 	// B2
 	for i := 0; i < pk.NVars; i++ {
 		b, err = readNBytes(r, 128)
 		if err != nil {
 			return nil, err
 		}
 		p2 := new(bn256.G2)
 		_, err = p2.Unmarshal(fromMont2Q(b))
 		if err != nil {
 			return nil, err
 		}
 		pk.B2 = append(pk.B2, p2)
 		o += 128
 	}
 	if o != pPointsC {
 		return nil, fmt.Errorf("Unexpected offset, expected: %v, actual: %v", pPointsC, o)
 	}
 	// C
 	zb := make([]byte, 64)
 	z := new(bn256.G1)
 	_, err = z.Unmarshal(zb)
 	if err != nil {
 		return nil, err
 	}
 	pk.C = append(pk.C, z) // circom behaviour (3x null==["0", "0", "0"])
 	pk.C = append(pk.C, z)
 	pk.C = append(pk.C, z)
 	for i := pk.NPublic + 1; i < pk.NVars; i++ {
 		b, err = readNBytes(r, 64)
 		if err != nil {
 			return nil, err
 		}
 		p1 := new(bn256.G1)
 		_, err = p1.Unmarshal(fromMont1Q(b))
 		if err != nil {
 			return nil, err
 		}
 		pk.C = append(pk.C, p1)
 		o += 64
 	}
 	if o != pPointsHExps {
 		return nil, fmt.Errorf("Unexpected offset, expected: %v, actual: %v", pPointsHExps, o)
 	}
 	for i := 0; i < pk.DomainSize; i++ {
 		b, err = readNBytes(r, 64)
 		if err != nil {
 			return nil, err
 		}
 		p1 := new(bn256.G1)
 		_, err = p1.Unmarshal(fromMont1Q(b))
 		if err != nil {
 			return nil, err
 		}
 		pk.HExps = append(pk.HExps, p1)
 	}
 	return &pk, nil
 }
 func fromMont1Q(m []byte) []byte {
 	a := new(big.Int).SetBytes(swapEndianness(m[:32]))
 	b := new(big.Int).SetBytes(swapEndianness(m[32:64]))
 	x := coordFromMont(a, types.Q)
 	y := coordFromMont(b, types.Q)
 	if bytes.Equal(x.Bytes(), big.NewInt(1).Bytes()) {
 		x = big.NewInt(0)
 	}
 	if bytes.Equal(y.Bytes(), big.NewInt(1).Bytes()) {
 		y = big.NewInt(0)
 	}
 	xBytes := x.Bytes()
 	yBytes := y.Bytes()
 	if len(xBytes) != 32 {
 		xBytes = addZPadding(xBytes)
 	}
 	if len(yBytes) != 32 {
 		yBytes = addZPadding(yBytes)
 	}
 	var p []byte
 	p = append(p, xBytes...)
 	p = append(p, yBytes...)
 	return p
 }
 func fromMont2Q(m []byte) []byte {
 	a := new(big.Int).SetBytes(swapEndianness(m[:32]))
 	b := new(big.Int).SetBytes(swapEndianness(m[32:64]))
 	c := new(big.Int).SetBytes(swapEndianness(m[64:96]))
 	d := new(big.Int).SetBytes(swapEndianness(m[96:128]))
 	x := coordFromMont(a, types.Q)
 	y := coordFromMont(b, types.Q)
 	z := coordFromMont(c, types.Q)
 	t := coordFromMont(d, types.Q)
 	if bytes.Equal(x.Bytes(), big.NewInt(1).Bytes()) {
 		x = big.NewInt(0)
 	}
 	if bytes.Equal(y.Bytes(), big.NewInt(1).Bytes()) {
 		y = big.NewInt(0)
 	}
 	if bytes.Equal(z.Bytes(), big.NewInt(1).Bytes()) {
 		z = big.NewInt(0)
 	}
 	if bytes.Equal(t.Bytes(), big.NewInt(1).Bytes()) {
 		t = big.NewInt(0)
 	}
 	xBytes := x.Bytes()
 	yBytes := y.Bytes()
 	zBytes := z.Bytes()
 	tBytes := t.Bytes()
 	if len(xBytes) != 32 {
 		xBytes = addZPadding(xBytes)
 	}
 	if len(yBytes) != 32 {
 		yBytes = addZPadding(yBytes)
 	}
 	if len(zBytes) != 32 {
 		zBytes = addZPadding(zBytes)
 	}
 	if len(tBytes) != 32 {
 		tBytes = addZPadding(tBytes)
 	}
 	var p []byte
 	p = append(p, yBytes...) // swap
 	p = append(p, xBytes...)
 	p = append(p, tBytes...)
 	p = append(p, zBytes...)
 	return p
 }
 func fromMont1R(m []byte) []byte {
 	a := new(big.Int).SetBytes(swapEndianness(m[:32]))
 	x := coordFromMont(a, types.R)
 	return x.Bytes()
 }
 func fromMont2R(m []byte) []byte {
 	a := new(big.Int).SetBytes(swapEndianness(m[:32]))
 	b := new(big.Int).SetBytes(swapEndianness(m[32:64]))
 	c := new(big.Int).SetBytes(swapEndianness(m[64:96]))
 	d := new(big.Int).SetBytes(swapEndianness(m[96:128]))
 	x := coordFromMont(a, types.R)
 	y := coordFromMont(b, types.R)
 	z := coordFromMont(c, types.R)
 	t := coordFromMont(d, types.R)
 	var p []byte
 	p = append(p, y.Bytes()...) // swap
 	p = append(p, x.Bytes()...)
 	p = append(p, t.Bytes()...)
 	p = append(p, z.Bytes()...)
 	return p
 }
 func coordFromMont(u, q *big.Int) *big.Int {
 	return new(big.Int).Mod(
 		new(big.Int).Mul(
 			u,
 			new(big.Int).ModInverse(
 				new(big.Int).Lsh(big.NewInt(1), 256),
 				q,
 			),
 		),
 		q,
 	)
 }
--- a/parsers/parsers_test.go
+++ b/parsers/parsers_test.go
@@ -1,12 +1,9 @@
 package parsers
 import (
 	"io/ioutil"
 	"os"
 	"testing"
 	"github.com/stretchr/testify/assert"
 	"github.com/stretchr/testify/require"
 )
 func TestParseArrayG1(t *testing.T) {
@@ -146,113 +143,3 @@ func TestParseArrayG2(t *testing.T) {
 	assert.Equal(t, "bn256.G2((1922d70c934543aa655ec3277f7fa10a25ec973a4f001a7c54ce4954b4916f8c, 14865e836947c42cf35b47d30e06535fff9dab319c4296e28afde368960671d5), (2f50fbe77925b0a9d718c9ab38638bafa7c65f43f0d09035e518df97ad294847, 177dfa1a3b8627faf0425d9511bcb4c6ca986ea05e3803b5c643c35b94a7e6fe))", a[3].String())
 }
 func testCircuitParseWitnessBin(t *testing.T, circuit string) {
 	witnessBinFile, err := os.Open("../testdata/" + circuit + "/witness.bin")
 	require.Nil(t, err)
 	defer witnessBinFile.Close()
 	witness, err := ParseWitnessBin(witnessBinFile)
 	require.Nil(t, err)
 	witnessJson, err := ioutil.ReadFile("../testdata/" + circuit + "/witness.json")
 	require.Nil(t, err)
 	w, err := ParseWitness(witnessJson)
 	require.Nil(t, err)
 	assert.Equal(t, len(w), len(witness))
 	assert.Equal(t, w[0], witness[0])
 	assert.Equal(t, w[1], witness[1])
 	assert.Equal(t, w[10], witness[10])
 	assert.Equal(t, w[len(w)-3], witness[len(w)-3])
 	assert.Equal(t, w[len(w)-2], witness[len(w)-2])
 	assert.Equal(t, w[len(w)-1], witness[len(w)-1])
 }
 func TestParseWitnessBin(t *testing.T) {
 	testCircuitParseWitnessBin(t, "circuit1k")
 	testCircuitParseWitnessBin(t, "circuit5k")
 }
 func TestProofSmartContractFormat(t *testing.T) {
 	proofJson, err := ioutil.ReadFile("../testdata/circuit1k/proof.json")
 	require.Nil(t, err)
 	proof, err := ParseProof(proofJson)
 	require.Nil(t, err)
 	pS := ProofToString(proof)
 	pSC := ProofToSmartContractFormat(proof)
 	assert.Nil(t, err)
 	assert.Equal(t, pS.A[0], pSC.A[0])
 	assert.Equal(t, pS.A[1], pSC.A[1])
 	assert.Equal(t, pS.B[0][0], pSC.B[0][1])
 	assert.Equal(t, pS.B[0][1], pSC.B[0][0])
 	assert.Equal(t, pS.B[1][0], pSC.B[1][1])
 	assert.Equal(t, pS.B[1][1], pSC.B[1][0])
 	assert.Equal(t, pS.C[0], pSC.C[0])
 	assert.Equal(t, pS.C[1], pSC.C[1])
 	assert.Equal(t, pS.Protocol, pSC.Protocol)
 	pSC2 := ProofStringToSmartContractFormat(pS)
 	assert.Equal(t, pSC, pSC2)
 }
 func testCircuitParsePkBin(t *testing.T, circuit string) {
 	pkBinFile, err := os.Open("../testdata/" + circuit + "/proving_key.bin")
 	require.Nil(t, err)
 	defer pkBinFile.Close()
 	pk, err := ParsePkBin(pkBinFile)
 	require.Nil(t, err)
 	pkJson, err := ioutil.ReadFile("../testdata/" + circuit + "/proving_key.json")
 	require.Nil(t, err)
 	pkJ, err := ParsePk(pkJson)
 	require.Nil(t, err)
 	assert.Equal(t, pkJ.NVars, pk.NVars)
 	assert.Equal(t, pkJ.NPublic, pk.NPublic)
 	assert.Equal(t, pkJ.DomainSize, pk.DomainSize)
 	assert.Equal(t, pkJ.VkAlpha1, pk.VkAlpha1)
 	assert.Equal(t, pkJ.VkBeta1, pk.VkBeta1)
 	assert.Equal(t, pkJ.VkDelta1, pk.VkDelta1)
 	assert.Equal(t, pkJ.VkDelta2, pk.VkDelta2)
 	assert.Equal(t, pkJ.PolsA, pk.PolsA)
 	assert.Equal(t, pkJ.PolsB, pk.PolsB)
 	assert.Equal(t, pkJ.A, pk.A)
 	assert.Equal(t, pkJ.B1, pk.B1)
 	assert.Equal(t, pkJ.B2, pk.B2)
 	assert.Equal(t, pkJ.C, pk.C)
 	assert.Equal(t, pkJ.HExps[:pkJ.DomainSize], pk.HExps[:pk.DomainSize]) // circom behaviour
 }
 func TestParsePkBin(t *testing.T) {
 	testCircuitParsePkBin(t, "circuit1k")
 	testCircuitParsePkBin(t, "circuit5k")
 }
 func benchmarkParsePk(b *testing.B, circuit string) {
 	pkJson, err := ioutil.ReadFile("../testdata/" + circuit + "/proving_key.json")
 	require.Nil(b, err)
 	pkBinFile, err := os.Open("../testdata/" + circuit + "/proving_key.bin")
 	require.Nil(b, err)
 	defer pkBinFile.Close()
 	b.Run("Parse Pk bin "+circuit, func(b *testing.B) {
 		for i := 0; i < b.N; i++ {
 			ParsePk(pkJson)
 		}
 	})
 	b.Run("Parse Pk json "+circuit, func(b *testing.B) {
 		for i := 0; i < b.N; i++ {
 			ParsePkBin(pkBinFile)
 		}
 	})
 }
 func BenchmarkParsePk(b *testing.B) {
 	benchmarkParsePk(b, "circuit1k")
 	benchmarkParsePk(b, "circuit5k")
 	// benchmarkParsePk(b, "circuit10k")
 	// benchmarkParsePk(b, "circuit20k")
 }
--- a/prover/arithmetic.go
+++ b/prover/arithmetic.go
@@ -4,46 +4,28 @@ import (
 	"bytes"
 	"math/big"
 	bn256 "github.com/ethereum/go-ethereum/crypto/bn256/cloudflare"
 	"github.com/iden3/go-circom-prover-verifier/types"
 	"github.com/iden3/go-iden3-crypto/ff"
 )
 func arrayOfZeroes(n int) []*big.Int {
-	r := make([]*big.Int, n)
+	var r []*big.Int
 	for i := 0; i < n; i++ {
-		r[i] = new(big.Int).SetInt64(0)
+		r = append(r, new(big.Int).SetInt64(0))
 	}
-	return r[:]
+	return r
 }
 func arrayOfZeroesE(n int) []*ff.Element {
-	r := make([]*ff.Element, n)
+	var r []*ff.Element
 	for i := 0; i < n; i++ {
-		r[i] = ff.NewElement()
+		r = append(r, ff.NewElement())
 	}
-	return r[:]
+	return r
 }
 func arrayOfZeroesG1(n int) []*bn256.G1 {
 	r := make([]*bn256.G1, n)
 	for i := 0; i < n; i++ {
 		r[i] = new(bn256.G1).ScalarBaseMult(big.NewInt(0))
 	}
 	return r[:]
 }
 func arrayOfZeroesG2(n int) []*bn256.G2 {
 	r := make([]*bn256.G2, n)
 	for i := 0; i < n; i++ {
 		r[i] = new(bn256.G2).ScalarBaseMult(big.NewInt(0))
 	}
 	return r[:]
 }
 func fAdd(a, b *big.Int) *big.Int {
 	ab := new(big.Int).Add(a, b)
-	return ab.Mod(ab, types.R)
+	return new(big.Int).Mod(ab, types.R)
 }
 func fSub(a, b *big.Int) *big.Int {
@@ -53,7 +35,7 @@ func fSub(a, b *big.Int) *big.Int {
 func fMul(a, b *big.Int) *big.Int {
 	ab := new(big.Int).Mul(a, b)
-	return ab.Mod(ab, types.R)
+	return new(big.Int).Mod(ab, types.R)
 }
 func fDiv(a, b *big.Int) *big.Int {
@@ -80,7 +62,7 @@ func fExp(base *big.Int, e *big.Int) *big.Int {
 			res = fMul(res, exp)
 		}
 		exp = fMul(exp, exp)
-		rem.Rsh(rem, 1)
+		rem = new(big.Int).Rsh(rem, 1)
 	}
 	return res
 }
--- a/prover/gextra.go
+++ b/prover/gextra.go
@@ -1,463 +0,0 @@
 package prover
 import (
 	"math/big"
 	bn256 "github.com/ethereum/go-ethereum/crypto/bn256/cloudflare"
 	cryptoConstants "github.com/iden3/go-iden3-crypto/constants"
 )
 type tableG1 struct {
 	data []*bn256.G1
 }
 func (t tableG1) getData() []*bn256.G1 {
 	return t.data
 }
 // Compute table of gsize elements as ::
 //  Table[0] = Inf
 //  Table[1] = a[0]
 //  Table[2] = a[1]
 //  Table[3] = a[0]+a[1]
 //  .....
 //  Table[(1<<gsize)-1] = a[0]+a[1]+...+a[gsize-1]
 func (t *tableG1) newTableG1(a []*bn256.G1, gsize int, toaffine bool) {
 	// EC table
 	table := make([]*bn256.G1, 0)
 	// We need at least gsize elements. If not enough, fill with 0
 	aExt := make([]*bn256.G1, 0)
 	aExt = append(aExt, a...)
 	for i := len(a); i < gsize; i++ {
 		aExt = append(aExt, new(bn256.G1).ScalarBaseMult(big.NewInt(0)))
 	}
 	elG1 := new(bn256.G1).ScalarBaseMult(big.NewInt(0))
 	table = append(table, elG1)
 	lastPow2 := 1
 	nelems := 0
 	for i := 1; i < 1<<gsize; i++ {
 		elG1 := new(bn256.G1)
 		// if power of 2
 		if i&(i-1) == 0 {
 			lastPow2 = i
 			elG1.Set(aExt[nelems])
 			nelems++
 		} else {
 			elG1.Add(table[lastPow2], table[i-lastPow2])
 			// TODO bn256 doesn't export MakeAffine function. We need to fork repo
 			//table[i].MakeAffine()
 		}
 		table = append(table, elG1)
 	}
 	if toaffine {
 		for i := 0; i < len(table); i++ {
 			info := table[i].Marshal()
 			table[i].Unmarshal(info)
 		}
 	}
 	t.data = table
 }
 func (t tableG1) Marshal() []byte {
 	info := make([]byte, 0)
 	for _, el := range t.data {
 		info = append(info, el.Marshal()...)
 	}
 	return info
 }
 // Multiply scalar by precomputed table of G1 elements
 func (t *tableG1) mulTableG1(k []*big.Int, qPrev *bn256.G1, gsize int) *bn256.G1 {
 	// We need at least gsize elements. If not enough, fill with 0
 	kExt := make([]*big.Int, 0)
 	kExt = append(kExt, k...)
 	for i := len(k); i < gsize; i++ {
 		kExt = append(kExt, new(big.Int).SetUint64(0))
 	}
 	Q := new(bn256.G1).ScalarBaseMult(big.NewInt(0))
 	msb := getMsb(kExt)
 	for i := msb - 1; i >= 0; i-- {
 		// TODO. bn256 doesn't export double operation. We will need to fork repo and export it
 		Q = new(bn256.G1).Add(Q, Q)
 		b := getBit(kExt, i)
 		if b != 0 {
 			// TODO. bn256 doesn't export mixed addition (Jacobian + Affine), which is more efficient.
 			Q.Add(Q, t.data[b])
 		}
 	}
 	if qPrev != nil {
 		return Q.Add(Q, qPrev)
 	}
 	return Q
 }
 // Multiply scalar by precomputed table of G1 elements without intermediate doubling
 func mulTableNoDoubleG1(t []tableG1, k []*big.Int, qPrev *bn256.G1, gsize int) *bn256.G1 {
 	// We need at least gsize elements. If not enough, fill with 0
 	minNElems := len(t) * gsize
 	kExt := make([]*big.Int, 0)
 	kExt = append(kExt, k...)
 	for i := len(k); i < minNElems; i++ {
 		kExt = append(kExt, new(big.Int).SetUint64(0))
 	}
 	// Init Adders
 	nbitsQ := cryptoConstants.Q.BitLen()
 	Q := make([]*bn256.G1, nbitsQ)
 	for i := 0; i < nbitsQ; i++ {
 		Q[i] = new(bn256.G1).ScalarBaseMult(big.NewInt(0))
 	}
 	// Perform bitwise addition
 	for j := 0; j < len(t); j++ {
 		msb := getMsb(kExt[j*gsize : (j+1)*gsize])
 		for i := msb - 1; i >= 0; i-- {
 			b := getBit(kExt[j*gsize:(j+1)*gsize], i)
 			if b != 0 {
 				// TODO. bn256 doesn't export mixed addition (Jacobian + Affine), which is more efficient.
 				Q[i].Add(Q[i], t[j].data[b])
 			}
 		}
 	}
 	// Consolidate Addition
 	R := new(bn256.G1).Set(Q[nbitsQ-1])
 	for i := nbitsQ - 1; i > 0; i-- {
 		// TODO. bn256 doesn't export double operation. We will need to fork repo and export it
 		R = new(bn256.G1).Add(R, R)
 		R.Add(R, Q[i-1])
 	}
 	if qPrev != nil {
 		return R.Add(R, qPrev)
 	}
 	return R
 }
 // Compute tables within function. This solution should still be faster than std  multiplication
 // for gsize = 7
 func scalarMultG1(a []*bn256.G1, k []*big.Int, qPrev *bn256.G1, gsize int) *bn256.G1 {
 	ntables := int((len(a) + gsize - 1) / gsize)
 	table := tableG1{}
 	Q := new(bn256.G1).ScalarBaseMult(new(big.Int))
 	for i := 0; i < ntables-1; i++ {
 		table.newTableG1(a[i*gsize:(i+1)*gsize], gsize, false)
 		Q = table.mulTableG1(k[i*gsize:(i+1)*gsize], Q, gsize)
 	}
 	table.newTableG1(a[(ntables-1)*gsize:], gsize, false)
 	Q = table.mulTableG1(k[(ntables-1)*gsize:], Q, gsize)
 	if qPrev != nil {
 		return Q.Add(Q, qPrev)
 	}
 	return Q
 }
 // Multiply scalar by precomputed table of G1 elements without intermediate doubling
 func scalarMultNoDoubleG1(a []*bn256.G1, k []*big.Int, qPrev *bn256.G1, gsize int) *bn256.G1 {
 	ntables := int((len(a) + gsize - 1) / gsize)
 	table := tableG1{}
 	// We need at least gsize elements. If not enough, fill with 0
 	minNElems := ntables * gsize
 	kExt := make([]*big.Int, 0)
 	kExt = append(kExt, k...)
 	for i := len(k); i < minNElems; i++ {
 		kExt = append(kExt, new(big.Int).SetUint64(0))
 	}
 	// Init Adders
 	nbitsQ := cryptoConstants.Q.BitLen()
 	Q := make([]*bn256.G1, nbitsQ)
 	for i := 0; i < nbitsQ; i++ {
 		Q[i] = new(bn256.G1).ScalarBaseMult(big.NewInt(0))
 	}
 	// Perform bitwise addition
 	for j := 0; j < ntables-1; j++ {
 		table.newTableG1(a[j*gsize:(j+1)*gsize], gsize, false)
 		msb := getMsb(kExt[j*gsize : (j+1)*gsize])
 		for i := msb - 1; i >= 0; i-- {
 			b := getBit(kExt[j*gsize:(j+1)*gsize], i)
 			if b != 0 {
 				// TODO. bn256 doesn't export mixed addition (Jacobian + Affine), which is more efficient.
 				Q[i].Add(Q[i], table.data[b])
 			}
 		}
 	}
 	table.newTableG1(a[(ntables-1)*gsize:], gsize, false)
 	msb := getMsb(kExt[(ntables-1)*gsize:])
 	for i := msb - 1; i >= 0; i-- {
 		b := getBit(kExt[(ntables-1)*gsize:], i)
 		if b != 0 {
 			// TODO. bn256 doesn't export mixed addition (Jacobian + Affine), which is more efficient.
 			Q[i].Add(Q[i], table.data[b])
 		}
 	}
 	// Consolidate Addition
 	R := new(bn256.G1).Set(Q[nbitsQ-1])
 	for i := nbitsQ - 1; i > 0; i-- {
 		// TODO. bn256 doesn't export double operation. We will need to fork repo and export it
 		R = new(bn256.G1).Add(R, R)
 		R.Add(R, Q[i-1])
 	}
 	if qPrev != nil {
 		return R.Add(R, qPrev)
 	}
 	return R
 }
 /////
 // TODO - How can avoid replicating code in G2?
 //G2
 type tableG2 struct {
 	data []*bn256.G2
 }
 func (t tableG2) getData() []*bn256.G2 {
 	return t.data
 }
 // Compute table of gsize elements as ::
 //  Table[0] = Inf
 //  Table[1] = a[0]
 //  Table[2] = a[1]
 //  Table[3] = a[0]+a[1]
 //  .....
 //  Table[(1<<gsize)-1] = a[0]+a[1]+...+a[gsize-1]
 // TODO -> toaffine = True doesnt work. Problem with Marshal/Unmarshal
 func (t *tableG2) newTableG2(a []*bn256.G2, gsize int, toaffine bool) {
 	// EC table
 	table := make([]*bn256.G2, 0)
 	// We need at least gsize elements. If not enough, fill with 0
 	aExt := make([]*bn256.G2, 0)
 	aExt = append(aExt, a...)
 	for i := len(a); i < gsize; i++ {
 		aExt = append(aExt, new(bn256.G2).ScalarBaseMult(big.NewInt(0)))
 	}
 	elG2 := new(bn256.G2).ScalarBaseMult(big.NewInt(0))
 	table = append(table, elG2)
 	lastPow2 := 1
 	nelems := 0
 	for i := 1; i < 1<<gsize; i++ {
 		elG2 := new(bn256.G2)
 		// if power of 2
 		if i&(i-1) == 0 {
 			lastPow2 = i
 			elG2.Set(aExt[nelems])
 			nelems++
 		} else {
 			elG2.Add(table[lastPow2], table[i-lastPow2])
 			// TODO bn256 doesn't export MakeAffine function. We need to fork repo
 			//table[i].MakeAffine()
 		}
 		table = append(table, elG2)
 	}
 	if toaffine {
 		for i := 0; i < len(table); i++ {
 			info := table[i].Marshal()
 			table[i].Unmarshal(info)
 		}
 	}
 	t.data = table
 }
 func (t tableG2) Marshal() []byte {
 	info := make([]byte, 0)
 	for _, el := range t.data {
 		info = append(info, el.Marshal()...)
 	}
 	return info
 }
 // Multiply scalar by precomputed table of G2 elements
 func (t *tableG2) mulTableG2(k []*big.Int, qPrev *bn256.G2, gsize int) *bn256.G2 {
 	// We need at least gsize elements. If not enough, fill with 0
 	kExt := make([]*big.Int, 0)
 	kExt = append(kExt, k...)
 	for i := len(k); i < gsize; i++ {
 		kExt = append(kExt, new(big.Int).SetUint64(0))
 	}
 	Q := new(bn256.G2).ScalarBaseMult(big.NewInt(0))
 	msb := getMsb(kExt)
 	for i := msb - 1; i >= 0; i-- {
 		// TODO. bn256 doesn't export double operation. We will need to fork repo and export it
 		Q = new(bn256.G2).Add(Q, Q)
 		b := getBit(kExt, i)
 		if b != 0 {
 			// TODO. bn256 doesn't export mixed addition (Jacobian + Affine), which is more efficient.
 			Q.Add(Q, t.data[b])
 		}
 	}
 	if qPrev != nil {
 		return Q.Add(Q, qPrev)
 	}
 	return Q
 }
 // Multiply scalar by precomputed table of G2 elements without intermediate doubling
 func mulTableNoDoubleG2(t []tableG2, k []*big.Int, qPrev *bn256.G2, gsize int) *bn256.G2 {
 	// We need at least gsize elements. If not enough, fill with 0
 	minNElems := len(t) * gsize
 	kExt := make([]*big.Int, 0)
 	kExt = append(kExt, k...)
 	for i := len(k); i < minNElems; i++ {
 		kExt = append(kExt, new(big.Int).SetUint64(0))
 	}
 	// Init Adders
 	nbitsQ := cryptoConstants.Q.BitLen()
 	Q := make([]*bn256.G2, nbitsQ)
 	for i := 0; i < nbitsQ; i++ {
 		Q[i] = new(bn256.G2).ScalarBaseMult(big.NewInt(0))
 	}
 	// Perform bitwise addition
 	for j := 0; j < len(t); j++ {
 		msb := getMsb(kExt[j*gsize : (j+1)*gsize])
 		for i := msb - 1; i >= 0; i-- {
 			b := getBit(kExt[j*gsize:(j+1)*gsize], i)
 			if b != 0 {
 				// TODO. bn256 doesn't export mixed addition (Jacobian + Affine), which is more efficient.
 				Q[i].Add(Q[i], t[j].data[b])
 			}
 		}
 	}
 	// Consolidate Addition
 	R := new(bn256.G2).Set(Q[nbitsQ-1])
 	for i := nbitsQ - 1; i > 0; i-- {
 		// TODO. bn256 doesn't export double operation. We will need to fork repo and export it
 		R = new(bn256.G2).Add(R, R)
 		R.Add(R, Q[i-1])
 	}
 	if qPrev != nil {
 		return R.Add(R, qPrev)
 	}
 	return R
 }
 // Compute tables within function. This solution should still be faster than std  multiplication
 // for gsize = 7
 func scalarMultG2(a []*bn256.G2, k []*big.Int, qPrev *bn256.G2, gsize int) *bn256.G2 {
 	ntables := int((len(a) + gsize - 1) / gsize)
 	table := tableG2{}
 	Q := new(bn256.G2).ScalarBaseMult(new(big.Int))
 	for i := 0; i < ntables-1; i++ {
 		table.newTableG2(a[i*gsize:(i+1)*gsize], gsize, false)
 		Q = table.mulTableG2(k[i*gsize:(i+1)*gsize], Q, gsize)
 	}
 	table.newTableG2(a[(ntables-1)*gsize:], gsize, false)
 	Q = table.mulTableG2(k[(ntables-1)*gsize:], Q, gsize)
 	if qPrev != nil {
 		return Q.Add(Q, qPrev)
 	}
 	return Q
 }
 // Multiply scalar by precomputed table of G2 elements without intermediate doubling
 func scalarMultNoDoubleG2(a []*bn256.G2, k []*big.Int, qPrev *bn256.G2, gsize int) *bn256.G2 {
 	ntables := int((len(a) + gsize - 1) / gsize)
 	table := tableG2{}
 	// We need at least gsize elements. If not enough, fill with 0
 	minNElems := ntables * gsize
 	kExt := make([]*big.Int, 0)
 	kExt = append(kExt, k...)
 	for i := len(k); i < minNElems; i++ {
 		kExt = append(kExt, new(big.Int).SetUint64(0))
 	}
 	// Init Adders
 	nbitsQ := cryptoConstants.Q.BitLen()
 	Q := make([]*bn256.G2, nbitsQ)
 	for i := 0; i < nbitsQ; i++ {
 		Q[i] = new(bn256.G2).ScalarBaseMult(big.NewInt(0))
 	}
 	// Perform bitwise addition
 	for j := 0; j < ntables-1; j++ {
 		table.newTableG2(a[j*gsize:(j+1)*gsize], gsize, false)
 		msb := getMsb(kExt[j*gsize : (j+1)*gsize])
 		for i := msb - 1; i >= 0; i-- {
 			b := getBit(kExt[j*gsize:(j+1)*gsize], i)
 			if b != 0 {
 				// TODO. bn256 doesn't export mixed addition (Jacobian + Affine), which is more efficient.
 				Q[i].Add(Q[i], table.data[b])
 			}
 		}
 	}
 	table.newTableG2(a[(ntables-1)*gsize:], gsize, false)
 	msb := getMsb(kExt[(ntables-1)*gsize:])
 	for i := msb - 1; i >= 0; i-- {
 		b := getBit(kExt[(ntables-1)*gsize:], i)
 		if b != 0 {
 			// TODO. bn256 doesn't export mixed addition (Jacobian + Affine), which is more efficient.
 			Q[i].Add(Q[i], table.data[b])
 		}
 	}
 	// Consolidate Addition
 	R := new(bn256.G2).Set(Q[nbitsQ-1])
 	for i := nbitsQ - 1; i > 0; i-- {
 		// TODO. bn256 doesn't export double operation. We will need to fork repo and export it
 		R = new(bn256.G2).Add(R, R)
 		R.Add(R, Q[i-1])
 	}
 	if qPrev != nil {
 		return R.Add(R, qPrev)
 	}
 	return R
 }
 // Return most significant bit position in a group of Big Integers
 func getMsb(k []*big.Int) int {
 	msb := 0
 	for _, el := range k {
 		tmpMsb := el.BitLen()
 		if tmpMsb > msb {
 			msb = tmpMsb
 		}
 	}
 	return msb
 }
 // Return ith bit in group of Big Integers
 func getBit(k []*big.Int, i int) uint {
 	tableIdx := uint(0)
 	for idx, el := range k {
 		b := el.Bit(i)
 		tableIdx += (b << idx)
 	}
 	return tableIdx
 }
--- a/prover/gextra_test.go
+++ b/prover/gextra_test.go
@@ -1,163 +0,0 @@
 package prover
 import (
 	"bytes"
 	"crypto/rand"
 	"fmt"
 	"math/big"
 	"testing"
 	"time"
 	bn256 "github.com/ethereum/go-ethereum/crypto/bn256/cloudflare"
 )
 const (
 	N1 = 5000
 	N2 = 5000
 )
 func randomBigIntArray(n int) []*big.Int {
 	var p []*big.Int
 	for i := 0; i < n; i++ {
 		pi := randBI()
 		p = append(p, pi)
 	}
 	return p
 }
 func randomG1Array(n int) []*bn256.G1 {
 	arrayG1 := make([]*bn256.G1, n)
 	for i := 0; i < n; i++ {
 		_, arrayG1[i], _ = bn256.RandomG1(rand.Reader)
 	}
 	return arrayG1
 }
 func randomG2Array(n int) []*bn256.G2 {
 	arrayG2 := make([]*bn256.G2, n)
 	for i := 0; i < n; i++ {
 		_, arrayG2[i], _ = bn256.RandomG2(rand.Reader)
 	}
 	return arrayG2
 }
 func TestTableG1(t *testing.T) {
 	n := N1
 	// init scalar
 	var arrayW = randomBigIntArray(n)
 	// init G1 array
 	var arrayG1 = randomG1Array(n)
 	beforeT := time.Now()
 	Q1 := new(bn256.G1).ScalarBaseMult(new(big.Int))
 	for i := 0; i < n; i++ {
 		Q1.Add(Q1, new(bn256.G1).ScalarMult(arrayG1[i], arrayW[i]))
 	}
 	fmt.Println("Std. Mult. time elapsed:", time.Since(beforeT))
 	for gsize := 2; gsize < 10; gsize++ {
 		ntables := int((n + gsize - 1) / gsize)
 		table := make([]tableG1, ntables)
 		for i := 0; i < ntables-1; i++ {
 			table[i].newTableG1(arrayG1[i*gsize:(i+1)*gsize], gsize, true)
 		}
 		table[ntables-1].newTableG1(arrayG1[(ntables-1)*gsize:], gsize, true)
 		beforeT = time.Now()
 		Q2 := new(bn256.G1).ScalarBaseMult(new(big.Int))
 		for i := 0; i < ntables-1; i++ {
 			Q2 = table[i].mulTableG1(arrayW[i*gsize:(i+1)*gsize], Q2, gsize)
 		}
 		Q2 = table[ntables-1].mulTableG1(arrayW[(ntables-1)*gsize:], Q2, gsize)
 		fmt.Printf("Gsize : %d, TMult time elapsed: %s\n", gsize, time.Since(beforeT))
 		beforeT = time.Now()
 		Q3 := scalarMultG1(arrayG1, arrayW, nil, gsize)
 		fmt.Printf("Gsize : %d, TMult time elapsed (inc table comp): %s\n", gsize, time.Since(beforeT))
 		beforeT = time.Now()
 		Q4 := mulTableNoDoubleG1(table, arrayW, nil, gsize)
 		fmt.Printf("Gsize : %d, TMultNoDouble time elapsed: %s\n", gsize, time.Since(beforeT))
 		beforeT = time.Now()
 		Q5 := scalarMultNoDoubleG1(arrayG1, arrayW, nil, gsize)
 		fmt.Printf("Gsize : %d, TMultNoDouble time elapsed (inc table comp): %s\n", gsize, time.Since(beforeT))
 		if bytes.Compare(Q1.Marshal(), Q2.Marshal()) != 0 {
 			t.Error("Error in TMult")
 		}
 		if bytes.Compare(Q1.Marshal(), Q3.Marshal()) != 0 {
 			t.Error("Error in  TMult with table comp")
 		}
 		if bytes.Compare(Q1.Marshal(), Q4.Marshal()) != 0 {
 			t.Error("Error in  TMultNoDouble")
 		}
 		if bytes.Compare(Q1.Marshal(), Q5.Marshal()) != 0 {
 			t.Error("Error in  TMultNoDoublee with table comp")
 		}
 	}
 }
 func TestTableG2(t *testing.T) {
 	n := N2
 	// init scalar
 	var arrayW = randomBigIntArray(n)
 	// init G2 array
 	var arrayG2 = randomG2Array(n)
 	beforeT := time.Now()
 	Q1 := new(bn256.G2).ScalarBaseMult(new(big.Int))
 	for i := 0; i < n; i++ {
 		Q1.Add(Q1, new(bn256.G2).ScalarMult(arrayG2[i], arrayW[i]))
 	}
 	fmt.Println("Std. Mult. time elapsed:", time.Since(beforeT))
 	for gsize := 2; gsize < 10; gsize++ {
 		ntables := int((n + gsize - 1) / gsize)
 		table := make([]tableG2, ntables)
 		for i := 0; i < ntables-1; i++ {
 			table[i].newTableG2(arrayG2[i*gsize:(i+1)*gsize], gsize, false)
 		}
 		table[ntables-1].newTableG2(arrayG2[(ntables-1)*gsize:], gsize, false)
 		beforeT = time.Now()
 		Q2 := new(bn256.G2).ScalarBaseMult(new(big.Int))
 		for i := 0; i < ntables-1; i++ {
 			Q2 = table[i].mulTableG2(arrayW[i*gsize:(i+1)*gsize], Q2, gsize)
 		}
 		Q2 = table[ntables-1].mulTableG2(arrayW[(ntables-1)*gsize:], Q2, gsize)
 		fmt.Printf("Gsize : %d, TMult time elapsed: %s\n", gsize, time.Since(beforeT))
 		beforeT = time.Now()
 		Q3 := scalarMultG2(arrayG2, arrayW, nil, gsize)
 		fmt.Printf("Gsize : %d, TMult time elapsed (inc table comp): %s\n", gsize, time.Since(beforeT))
 		beforeT = time.Now()
 		Q4 := mulTableNoDoubleG2(table, arrayW, nil, gsize)
 		fmt.Printf("Gsize : %d, TMultNoDouble time elapsed: %s\n", gsize, time.Since(beforeT))
 		beforeT = time.Now()
 		Q5 := scalarMultNoDoubleG2(arrayG2, arrayW, nil, gsize)
 		fmt.Printf("Gsize : %d, TMultNoDouble time elapsed (inc table comp): %s\n", gsize, time.Since(beforeT))
 		if bytes.Compare(Q1.Marshal(), Q2.Marshal()) != 0 {
 			t.Error("Error in TMult")
 		}
 		if bytes.Compare(Q1.Marshal(), Q3.Marshal()) != 0 {
 			t.Error("Error in  TMult with table comp")
 		}
 		if bytes.Compare(Q1.Marshal(), Q4.Marshal()) != 0 {
 			t.Error("Error in  TMultNoDouble")
 		}
 		if bytes.Compare(Q1.Marshal(), Q5.Marshal()) != 0 {
 			t.Error("Error in  TMultNoDoublee with table comp")
 		}
 	}
 }
--- a/prover/prover.go
+++ b/prover/prover.go
@@ -4,13 +4,12 @@ import (
 	"crypto/rand"
 	"math"
 	"math/big"
 	"runtime"
 	"sync"
 	bn256 "github.com/ethereum/go-ethereum/crypto/bn256/cloudflare"
 	"github.com/iden3/go-circom-prover-verifier/types"
 	"github.com/iden3/go-iden3-crypto/ff"
 	"github.com/iden3/go-iden3-crypto/utils"
 	//"fmt"
 )
 // Proof is the data structure of the Groth16 zkSNARK proof
@@ -43,11 +42,6 @@ type Pk struct {
 // Witness contains the witness
 type Witness []*big.Int
 // Group Size
 const (
 	GSIZE = 6
 )
 func randBigInt() (*big.Int, error) {
 	maxbits := types.R.BitLen()
 	b := make([]byte, (maxbits/8)-1)
@@ -74,92 +68,66 @@ func GenerateProof(pk *types.Pk, w types.Witness) (*types.Proof, []*big.Int, err
 		return nil, nil, err
 	}
-	// BEGIN PAR
+	proof.A = new(bn256.G1).ScalarBaseMult(big.NewInt(0))
-	numcpu := runtime.NumCPU()
+	proof.B = new(bn256.G2).ScalarBaseMult(big.NewInt(0))
 	proof.C = new(bn256.G1).ScalarBaseMult(big.NewInt(0))
 	proofBG1 := new(bn256.G1).ScalarBaseMult(big.NewInt(0))
-	proofA := arrayOfZeroesG1(numcpu)
+	var wg sync.WaitGroup
-	proofB := arrayOfZeroesG2(numcpu)
+	wg.Add(4)
-	proofC := arrayOfZeroesG1(numcpu)
+	go func() {
-	proofBG1 := arrayOfZeroesG1(numcpu)
+		for i := 0; i < pk.NVars; i++ {
-	gsize := GSIZE
+			proof.A = new(bn256.G1).Add(proof.A, new(bn256.G1).ScalarMult(pk.A[i], w[i]))
 	var wg1 sync.WaitGroup
 	wg1.Add(numcpu)
 	for _cpu, _ranges := range ranges(pk.NVars, numcpu) {
 		// split 1
 		go func(cpu int, ranges [2]int) {
 			proofA[cpu] = scalarMultNoDoubleG1(pk.A[ranges[0]:ranges[1]],
 				w[ranges[0]:ranges[1]],
 				proofA[cpu],
 				gsize)
 			proofB[cpu] = scalarMultNoDoubleG2(pk.B2[ranges[0]:ranges[1]],
 				w[ranges[0]:ranges[1]],
 				proofB[cpu],
 				gsize)
 			proofBG1[cpu] = scalarMultNoDoubleG1(pk.B1[ranges[0]:ranges[1]],
 				w[ranges[0]:ranges[1]],
 				proofBG1[cpu],
 				gsize)
 			minLim := pk.NPublic + 1
 			if ranges[0] > pk.NPublic+1 {
 				minLim = ranges[0]
 		}
-			if ranges[1] > pk.NPublic+1 {
+		wg.Done()
-				proofC[cpu] = scalarMultNoDoubleG1(pk.C[minLim:ranges[1]],
+	}()
-					w[minLim:ranges[1]],
+	go func() {
-					proofC[cpu],
+		for i := 0; i < pk.NVars; i++ {
-					gsize)
+			proof.B = new(bn256.G2).Add(proof.B, new(bn256.G2).ScalarMult(pk.B2[i], w[i]))
 		}
-			wg1.Done()
+		wg.Done()
-		}(_cpu, _ranges)
+	}()
 	go func() {
 		for i := 0; i < pk.NVars; i++ {
 			proofBG1 = new(bn256.G1).Add(proofBG1, new(bn256.G1).ScalarMult(pk.B1[i], w[i]))
 		}
-	wg1.Wait()
+		wg.Done()
-	// join 1
+	}()
-	for cpu := 1; cpu < numcpu; cpu++ {
+	go func() {
-		proofA[0].Add(proofA[0], proofA[cpu])
+		for i := pk.NPublic + 1; i < pk.NVars; i++ {
-		proofB[0].Add(proofB[0], proofB[cpu])
+			proof.C = new(bn256.G1).Add(proof.C, new(bn256.G1).ScalarMult(pk.C[i], w[i]))
 		proofC[0].Add(proofC[0], proofC[cpu])
 		proofBG1[0].Add(proofBG1[0], proofBG1[cpu])
 		}
-	proof.A = proofA[0]
+		wg.Done()
-	proof.B = proofB[0]
+	}()
-	proof.C = proofC[0]
+	wg.Wait()
 	// END PAR
 	h := calculateH(pk, w)
 	proof.A.Add(proof.A, pk.VkAlpha1)
 	proof.A.Add(proof.A, new(bn256.G1).ScalarMult(pk.VkDelta1, r))
 	proof.B.Add(proof.B, pk.VkBeta2)
 	proof.B.Add(proof.B, new(bn256.G2).ScalarMult(pk.VkDelta2, s))
 	proofBG1[0].Add(proofBG1[0], pk.VkBeta1)
 	proofBG1[0].Add(proofBG1[0], new(bn256.G1).ScalarMult(pk.VkDelta1, s))
 	proofC = arrayOfZeroesG1(numcpu)
 	var wg2 sync.WaitGroup
-	wg2.Add(numcpu)
+	wg2.Add(2)
-	for _cpu, _ranges := range ranges(len(h), numcpu) {
+	go func() {
-		// split 2
+		proof.A = new(bn256.G1).Add(proof.A, pk.VkAlpha1)
-		go func(cpu int, ranges [2]int) {
+		proof.A = new(bn256.G1).Add(proof.A, new(bn256.G1).ScalarMult(pk.VkDelta1, r))
 			proofC[cpu] = scalarMultNoDoubleG1(pk.HExps[ranges[0]:ranges[1]],
 				h[ranges[0]:ranges[1]],
 				proofC[cpu],
 				gsize)
 			wg2.Done()
 		}(_cpu, _ranges)
 	}
 	wg2.Wait()
 	// join 2
 	for cpu := 1; cpu < numcpu; cpu++ {
 		proofC[0].Add(proofC[0], proofC[cpu])
 	}
 	proof.C.Add(proof.C, proofC[0])
-	proof.C.Add(proof.C, new(bn256.G1).ScalarMult(proof.A, s))
+		proof.B = new(bn256.G2).Add(proof.B, pk.VkBeta2)
-	proof.C.Add(proof.C, new(bn256.G1).ScalarMult(proofBG1[0], r))
+		proof.B = new(bn256.G2).Add(proof.B, new(bn256.G2).ScalarMult(pk.VkDelta2, s))
-	rsneg := new(big.Int).Mod(new(big.Int).Neg(new(big.Int).Mul(r, s)), types.R)
+
-	proof.C.Add(proof.C, new(bn256.G1).ScalarMult(pk.VkDelta1, rsneg))
+		proofBG1 = new(bn256.G1).Add(proofBG1, pk.VkBeta1)
 		proofBG1 = new(bn256.G1).Add(proofBG1, new(bn256.G1).ScalarMult(pk.VkDelta1, s))
 		wg2.Done()
 	}()
 	go func() {
 		for i := 0; i < len(h); i++ {
 			proof.C = new(bn256.G1).Add(proof.C, new(bn256.G1).ScalarMult(pk.HExps[i], h[i]))
 		}
 		wg2.Done()
 	}()
 	wg2.Wait()
 	proof.C = new(bn256.G1).Add(proof.C, new(bn256.G1).ScalarMult(proof.A, s))
 	proof.C = new(bn256.G1).Add(proof.C, new(bn256.G1).ScalarMult(proofBG1, r))
 	rsneg := new(big.Int).Mod(new(big.Int).Neg(new(big.Int).Mul(r, s)), types.R) // fAdd & fMul
 	proof.C = new(bn256.G1).Add(proof.C, new(bn256.G1).ScalarMult(pk.VkDelta1, rsneg))
 	pubSignals := w[1 : pk.NPublic+1]
@@ -171,27 +139,14 @@ func calculateH(pk *types.Pk, w types.Witness) []*big.Int {
 	polAT := arrayOfZeroes(m)
 	polBT := arrayOfZeroes(m)
 	numcpu := runtime.NumCPU()
 	var wg1 sync.WaitGroup
 	wg1.Add(2)
 	go func() {
 	for i := 0; i < pk.NVars; i++ {
 		for j := range pk.PolsA[i] {
 			polAT[j] = fAdd(polAT[j], fMul(w[i], pk.PolsA[i][j]))
 		}
 		}
 		wg1.Done()
 	}()
 	go func() {
 		for i := 0; i < pk.NVars; i++ {
 		for j := range pk.PolsB[i] {
 			polBT[j] = fAdd(polBT[j], fMul(w[i], pk.PolsB[i][j]))
 		}
 	}
 		wg1.Done()
 	}()
 	wg1.Wait()
 	polATe := utils.BigIntArrayToElementArray(polAT)
 	polBTe := utils.BigIntArrayToElementArray(polBT)
@@ -201,49 +156,22 @@ func calculateH(pk *types.Pk, w types.Witness) []*big.Int {
 	r := int(math.Log2(float64(m))) + 1
 	roots := newRootsT()
 	roots.setRoots(r)
-
+	for i := 0; i < len(polASe); i++ {
-	var wg2 sync.WaitGroup
+		polASe[i] = ff.NewElement().Mul(polASe[i], roots.roots[r][i])
-	wg2.Add(numcpu)
+		polBSe[i] = ff.NewElement().Mul(polBSe[i], roots.roots[r][i])
 	for _cpu, _ranges := range ranges(len(polASe), numcpu) {
 		go func(cpu int, ranges [2]int) {
 			for i := ranges[0]; i < ranges[1]; i++ {
 				polASe[i].Mul(polASe[i], roots.roots[r][i])
 				polBSe[i].Mul(polBSe[i], roots.roots[r][i])
 	}
 			wg2.Done()
 		}(_cpu, _ranges)
 	}
 	wg2.Wait()
 	polATodd := fft(polASe)
 	polBTodd := fft(polBSe)
 	polABT := arrayOfZeroesE(len(polASe) * 2)
-	var wg3 sync.WaitGroup
+	for i := 0; i < len(polASe); i++ {
-	wg3.Add(numcpu)
+		polABT[2*i] = ff.NewElement().Mul(polATe[i], polBTe[i])
-	for _cpu, _ranges := range ranges(len(polASe), numcpu) {
+		polABT[2*i+1] = ff.NewElement().Mul(polATodd[i], polBTodd[i])
 		go func(cpu int, ranges [2]int) {
 			for i := ranges[0]; i < ranges[1]; i++ {
 				polABT[2*i].Mul(polATe[i], polBTe[i])
 				polABT[2*i+1].Mul(polATodd[i], polBTodd[i])
 	}
 			wg3.Done()
 		}(_cpu, _ranges)
 	}
 	wg3.Wait()
 	hSeFull := ifft(polABT)
 	hSe := hSeFull[m:]
 	return utils.ElementArrayToBigIntArray(hSe)
 }
 func ranges(n, parts int) [][2]int {
 	s := make([][2]int, parts)
 	p := float64(n) / float64(parts)
 	for i := 0; i < parts; i++ {
 		a, b := int(float64(i)*p), int(float64(i+1)*p)
 		s[i] = [2]int{a, b}
 	}
 	return s
 }
--- a/prover/prover_test.go
+++ b/prover/prover_test.go
@@ -4,7 +4,6 @@ import (
 	"encoding/json"
 	"fmt"
 	"io/ioutil"
 	"os"
 	"testing"
 	"time"
@@ -22,33 +21,20 @@ func TestCircuitsGenerateProof(t *testing.T) {
 }
 func testCircuitGenerateProof(t *testing.T, circuit string) {
-	// using json provingKey file
+	provingKeyJson, err := ioutil.ReadFile("../testdata/" + circuit + "/proving_key.json")
 	// provingKeyJson, err := ioutil.ReadFile("../testdata/" + circuit + "/proving_key.json")
 	// require.Nil(t, err)
 	// pk, err := parsers.ParsePk(provingKeyJson)
 	// require.Nil(t, err)
 	// witnessJson, err := ioutil.ReadFile("../testdata/" + circuit + "/witness.json")
 	// require.Nil(t, err)
 	// w, err := parsers.ParseWitness(witnessJson)
 	// require.Nil(t, err)
 	// using bin provingKey file
 	pkBinFile, err := os.Open("../testdata/" + circuit + "/proving_key.bin")
 	require.Nil(t, err)
-	defer pkBinFile.Close()
+	pk, err := parsers.ParsePk(provingKeyJson)
 	pk, err := parsers.ParsePkBin(pkBinFile)
 	require.Nil(t, err)
-	witnessBinFile, err := os.Open("../testdata/" + circuit + "/witness.bin")
+	witnessJson, err := ioutil.ReadFile("../testdata/" + circuit + "/witness.json")
 	require.Nil(t, err)
-	defer witnessBinFile.Close()
+	w, err := parsers.ParseWitness(witnessJson)
 	w, err := parsers.ParseWitnessBin(witnessBinFile)
 	require.Nil(t, err)
 	beforeT := time.Now()
 	proof, pubSignals, err := GenerateProof(pk, w)
 	assert.Nil(t, err)
-	fmt.Println("proof generation time for "+circuit+" elapsed:", time.Since(beforeT))
+	fmt.Println("proof generation time elapsed:", time.Since(beforeT))
 	proofStr, err := parsers.ProofToJson(proof)
 	assert.Nil(t, err)
@@ -75,12 +61,12 @@ func testCircuitGenerateProof(t *testing.T, circuit string) {
 func BenchmarkGenerateProof(b *testing.B) {
 	// benchmark with a circuit of 10000 constraints
-	provingKeyJson, err := ioutil.ReadFile("../testdata/circuit5k/proving_key.json")
+	provingKeyJson, err := ioutil.ReadFile("../testdata/circuit1/proving_key.json")
 	require.Nil(b, err)
 	pk, err := parsers.ParsePk(provingKeyJson)
 	require.Nil(b, err)
-	witnessJson, err := ioutil.ReadFile("../testdata/circuit5k/witness.json")
+	witnessJson, err := ioutil.ReadFile("../testdata/circuit1/witness.json")
 	require.Nil(b, err)
 	w, err := parsers.ParseWitness(witnessJson)
 	require.Nil(b, err)
--- a/prover/tables.md
+++ b/prover/tables.md
@@ -1,49 +0,0 @@
 # Tables Pre-calculation
 The most time consuming part of a ZKSnark proof calculation is the scalar multiplication of elliptic curve points. Direct mechanism accumulates each multiplication. However, prover only needs the total accumulation.
 There are two potential improvements to the naive approach:
 1. Apply Strauss-Shamir method (https://stackoverflow.com/questions/50993471/ec-scalar-multiplication-with-strauss-shamir-method).
 2. Leave the doubling operation for the last step
 Both options can be combined. 
 In the following table, we show the results of using the naive method, Srauss-Shamir and Strauss-Shamir + No doubling. These last two options are repeated for different table grouping order.
 There are 50000 G1 Elliptical Curve Points, and the scalars are 254 bits (BN256 curve). 
 There may be some concern on the additional size of the tables since they need to be loaded into a smartphone during the proof, and the time required to load these tables may exceed the benefits. If this is a problem, another althernative is to compute the tables during the proof itself. Depending on the Group Size, timing may be better than the naive approach.
 | Algorithm (G1) | GS 2 | GS 3 | GS 4 | GS 5 | GS 6 | GS 7 | GS 8 | GS 9 | 
 |---|---|---|--|---|---|---|---|---|
 | Naive | 6.63s | - | - | - | - | - |  - | - |
 | Strauss |  13.16s | 9.03s | 6.95s | 5.61s | 4.91s | 4.26s | 3.88s | 3.54 s |
 | Strauss + Table Computation | 16.13s | 11.32s | 8.47s | 7.10s | 6.2s | 5.94s | 6.01s | 6.69s |
 | No Doubling | 3.74s | 3.00s | 2.38s | 1.96s | 1.79s | 1.54s | 1.50s | 1.44s|
 | No Doubling + Table Computation  | 6.83s | 5.1s | 4.16s | 3.52s| 3.22s | 3.21s | 3.57s | 4.56s |
 There are 5000 G2 Elliptical Curve Points, and the scalars are 254 bits (BN256 curve). 
 | Algorithm (G2) | GS 2 | GS 3 | GS 4 | GS 5 | GS 6 | GS 7 | GS 8 | GS 9 | 
 |---|---|---|--|---|---|---|---|---|
 | Naive | 3.55s | | | | | | | |
 | Strauss |  3.55s | 2.54s | 1.96s | 1.58s |  1.38s | 1.20s | 1.03s | 937ms |
 | Strauss + Table Computation | 3.59s | 2.58s | 2.04s | 1.71s | 1.51s | 1.46s | 1.51s | 1.82s |
 | No Doubling | 1.49s | 1.16s | 952ms | 719ms | 661ms | 548ms | 506ms| 444ms |
 | No Doubling + Table Computation  | 1.55s |  1.21s | 984ms | 841ms | 826ms | 847ms | 1.03s | 1.39s |
 | GS | Extra Disk Space per Constraint (G1)|
 |----|--------|
 | 2  |  64 B  |
 | 3  |  106 B |
 | 4  |  192 B |
 | 5  |  346 B |
 | 6  |  618 B |
 | 7  |  1106 B |
 | 8  |  1984 B |
 | 9  |  3577 B |
 | N  |  2^(N+6)/N - 64 B |
 Extra disk space per constraint in G2 is twice the requirements for G1
--- a/testdata/.gitignore
+++ b/testdata/.gitignore
@@ -1 +0,0 @@
 node_modules
--- a/testdata/compile-circuits.sh
+++ b/testdata/compile-circuits.sh
@@ -1,31 +1,29 @@
 #!/bin/sh
 npm install
 compile_and_ts_and_witness() {
  echo $(date +"%T") "circom circuit.circom --r1cs --wasm --sym"
  itime="$(date -u +%s)"
-  ../node_modules/.bin/circom circuit.circom --r1cs --wasm --sym
+  circom circuit.circom --r1cs --wasm --sym
  ftime="$(date -u +%s)"
  echo "	($(($(date -u +%s)-$itime))s)"
  echo $(date +"%T") "snarkjs info -r circuit.r1cs"
-  ../node_modules/.bin/snarkjs info -r circuit.r1cs
+  snarkjs info -r circuit.r1cs
  echo $(date +"%T") "snarkjs setup"
  itime="$(date -u +%s)"
-  ../node_modules/.bin/snarkjs setup
+  snarkjs setup
  echo "	($(($(date -u +%s)-$itime))s)"
  echo $(date +"%T") "trusted setup generated"
  sed -i 's/null/["0","0","0"]/g' proving_key.json
  echo "calculating witness"
-  ../node_modules/.bin/snarkjs calculatewitness --wasm circuit.wasm --input inputs.json --witness witness.json
+  snarkjs calculatewitness --wasm circuit.wasm --input inputs.json --witness witness.json
  echo $(date +"%T") "snarkjs generateverifier"
  itime="$(date -u +%s)"
-  ../node_modules/.bin/snarkjs generateverifier
+  snarkjs generateverifier
  echo "	($(($(date -u +%s)-$itime))s)"
  echo $(date +"%T") "generateverifier generated"
 }
@@ -42,22 +40,3 @@ compile_and_ts_and_witness
 # echo "compile & trustesetup for circuit20k"
 # cd ../circuit20k
 # compile_and_ts_and_witness
 cd ../
 echo "convert witness & pk of circuit1k to bin"
 node node_modules/wasmsnark/tools/buildwitness.js -i circuit1k/witness.json -o circuit1k/witness.bin
 node node_modules/wasmsnark/tools/buildpkey.js -i circuit1k/proving_key.json -o circuit1k/proving_key.bin
 echo "convert witness & pk of circuit5k to bin"
 node node_modules/wasmsnark/tools/buildwitness.js -i circuit5k/witness.json -o circuit5k/witness.bin
 node node_modules/wasmsnark/tools/buildpkey.js -i circuit5k/proving_key.json -o circuit5k/proving_key.bin
 # echo "convert witness & pk of circuit10k to bin"
 # node node_modules/wasmsnark/tools/buildwitness.js -i circuit10k/witness.json -o circuit10k/witness.bin
 # node node_modules/wasmsnark/tools/buildpkey.js -i circuit10k/proving_key.json -o circuit10k/proving_key.bin
 # 
 # echo "convert witness & pk of circuit20k to bin"
 # node node_modules/wasmsnark/tools/buildwitness.js -i circuit20k/witness.json -o circuit20k/witness.bin
 # node node_modules/wasmsnark/tools/buildpkey.js -i circuit20k/proving_key.json -o circuit20k/proving_key.bin
--- a/testdata/package-lock.json
+++ b/testdata/package-lock.json
@@ -1,923 +0,0 @@
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 }
--- a/testdata/package.json
+++ b/testdata/package.json
@@ -1,16 +0,0 @@
 {
  "name": "binformat",
  "version": "0.0.1",
  "description": "",
  "main": "index.js",
  "scripts": {
    "test": "echo \"Error: no test specified\" && exit 1"
  },
  "author": "",
  "license": "GPL-3.0",
  "dependencies": {
    "wasmsnark": "0.0.10",
    "circom": "^0.5.11",
    "snarkjs": "^0.1.31"
  }
 }
--- a/types/types.go
+++ b/types/types.go
@@ -6,8 +6,6 @@ import (
 	bn256 "github.com/ethereum/go-ethereum/crypto/bn256/cloudflare"
 )
 var Q, _ = new(big.Int).SetString("21888242871839275222246405745257275088696311157297823662689037894645226208583", 10)
 // R is the mod of the finite field
 var R, _ = new(big.Int).SetString("21888242871839275222246405745257275088548364400416034343698204186575808495617", 10)
--- a/verifier/verifier.go
+++ b/verifier/verifier.go
@@ -17,7 +17,6 @@ type Vk struct {
 	IC    []*bn256.G1
 }
 // Verify verifies the Groth16 zkSNARK proof
 func Verify(vk *types.Vk, proof *types.Proof, inputs []*big.Int) bool {
 	if len(inputs)+1 != len(vk.IC) {
 		fmt.Println("len(inputs)+1 != len(vk.IC)")