go-snark/r1csqap/r1csqap_test.go

package r1csqap

import (
	"bytes"
	"fmt"
	"math/big"
	"testing"

	"github.com/arnaucube/go-snark/fields"
	"github.com/stretchr/testify/assert"
)

func TestTranspose(t *testing.T) {
	b0 := big.NewInt(int64(0))
	b1 := big.NewInt(int64(1))
	bFive := big.NewInt(int64(5))
	a := [][]*big.Int{
		[]*big.Int{b0, b1, b0, b0, b0, b0},
		[]*big.Int{b0, b0, b0, b1, b0, b0},
		[]*big.Int{b0, b1, b0, b0, b1, b0},
		[]*big.Int{bFive, b0, b0, b0, b0, b1},
	}
	aT := Transpose(a)
	assert.Equal(t, aT, [][]*big.Int{
		[]*big.Int{b0, b0, b0, bFive},
		[]*big.Int{b1, b0, b1, b0},
		[]*big.Int{b0, b0, b0, b0},
		[]*big.Int{b0, b1, b0, b0},
		[]*big.Int{b0, b0, b1, b0},
		[]*big.Int{b0, b0, b0, b1},
	})
}

func TestPol(t *testing.T) {
	b0 := big.NewInt(int64(0))
	b1 := big.NewInt(int64(1))
	b3 := big.NewInt(int64(3))
	b4 := big.NewInt(int64(4))
	b5 := big.NewInt(int64(5))
	b6 := big.NewInt(int64(6))
	b16 := big.NewInt(int64(16))

	a := []*big.Int{b1, b0, b5}
	b := []*big.Int{b3, b0, b1}

	// new Finite Field
	r, ok := new(big.Int).SetString("21888242871839275222246405745257275088548364400416034343698204186575808495617", 10)
	assert.True(nil, ok)
	f := fields.NewFq(r)

	// new Polynomial Field
	pf := NewPolynomialField(f)

	// polynomial multiplication
	o := pf.Mul(a, b)
	assert.Equal(t, o, []*big.Int{b3, b0, b16, b0, b5})

	// polynomial addition
	o = pf.Add(a, b)
	assert.Equal(t, o, []*big.Int{b4, b0, b6})

	// polynomial subtraction
	o1 := pf.Sub(a, b)
	o2 := pf.Sub(b, a)
	o = pf.Add(o1, o2)
	assert.True(t, bytes.Equal(b0.Bytes(), o[0].Bytes()))
	assert.True(t, bytes.Equal(b0.Bytes(), o[1].Bytes()))
	assert.True(t, bytes.Equal(b0.Bytes(), o[2].Bytes()))

	c := []*big.Int{b5, b6, b1}
	d := []*big.Int{b1, b3}
	o = pf.Sub(c, d)
	assert.Equal(t, o, []*big.Int{b4, b3, b1})

	// NewPolZeroAt
	o = pf.NewPolZeroAt(3, 4, b4)
	assert.Equal(t, pf.Eval(o, big.NewInt(3)), b4)
	o = pf.NewPolZeroAt(2, 4, b3)
	assert.Equal(t, pf.Eval(o, big.NewInt(2)), b3)
}

func TestLagrangeInterpolation(t *testing.T) {
	// new Finite Field
	r, ok := new(big.Int).SetString("21888242871839275222246405745257275088548364400416034343698204186575808495617", 10)
	assert.True(nil, ok)
	f := fields.NewFq(r)
	// new Polynomial Field
	pf := NewPolynomialField(f)

	b0 := big.NewInt(int64(0))
	b5 := big.NewInt(int64(5))
	a := []*big.Int{b0, b0, b0, b5}
	alpha := pf.LagrangeInterpolation(a)

	assert.Equal(t, pf.Eval(alpha, big.NewInt(int64(4))), b5)
	aux := pf.Eval(alpha, big.NewInt(int64(3))).Int64()
	assert.Equal(t, aux, int64(0))

}

func TestR1CSToQAP(t *testing.T) {
	// new Finite Field
	r, ok := new(big.Int).SetString("21888242871839275222246405745257275088548364400416034343698204186575808495617", 10)
	assert.True(nil, ok)
	f := fields.NewFq(r)
	// new Polynomial Field
	pf := NewPolynomialField(f)

	b0 := big.NewInt(int64(0))
	b1 := big.NewInt(int64(1))
	b3 := big.NewInt(int64(3))
	b5 := big.NewInt(int64(5))
	b9 := big.NewInt(int64(9))
	b27 := big.NewInt(int64(27))
	b30 := big.NewInt(int64(30))
	b35 := big.NewInt(int64(35))
	a := [][]*big.Int{
		[]*big.Int{b0, b1, b0, b0, b0, b0},
		[]*big.Int{b0, b0, b0, b1, b0, b0},
		[]*big.Int{b0, b1, b0, b0, b1, b0},
		[]*big.Int{b5, b0, b0, b0, b0, b1},
	}
	b := [][]*big.Int{
		[]*big.Int{b0, b1, b0, b0, b0, b0},
		[]*big.Int{b0, b1, b0, b0, b0, b0},
		[]*big.Int{b1, b0, b0, b0, b0, b0},
		[]*big.Int{b1, b0, b0, b0, b0, b0},
	}
	c := [][]*big.Int{
		[]*big.Int{b0, b0, b0, b1, b0, b0},
		[]*big.Int{b0, b0, b0, b0, b1, b0},
		[]*big.Int{b0, b0, b0, b0, b0, b1},
		[]*big.Int{b0, b0, b1, b0, b0, b0},
	}
	alphas, betas, gammas, zx := pf.R1CSToQAP(a, b, c)
	fmt.Println(alphas)
	fmt.Println(betas)
	fmt.Println(gammas)
	fmt.Print("Z(x): ")
	fmt.Println(zx)

	w := []*big.Int{b1, b3, b35, b9, b27, b30}
	ax, bx, cx, px := pf.CombinePolynomials(w, alphas, betas, gammas)
	fmt.Println(ax)
	fmt.Println(bx)
	fmt.Println(cx)
	fmt.Println(px)

	hx := pf.DivisorPolynomial(px, zx)
	fmt.Println(hx)

	// hx==px/zx so px==hx*zx
	assert.Equal(t, px, pf.Mul(hx, zx))

	// p(x) = a(x) * b(x) - c(x) == h(x) * z(x)
	abc := pf.Sub(pf.Mul(ax, bx), cx)
	assert.Equal(t, abc, px)
	hz := pf.Mul(hx, zx)
	assert.Equal(t, abc, hz)

}