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package r1csqapFloat
import (
"fmt"
"math/big"
"testing"
"github.com/stretchr/testify/assert"
)
func TestTranspose(t *testing.T) {
b0 := big.NewFloat(float64(0))
b1 := big.NewFloat(float64(1))
bFive := big.NewFloat(float64(5))
a := [][]*big.Float{
[]*big.Float{b0, b1, b0, b0, b0, b0},
[]*big.Float{b0, b0, b0, b1, b0, b0},
[]*big.Float{b0, b1, b0, b0, b1, b0},
[]*big.Float{bFive, b0, b0, b0, b0, b1},
}
aT := Transpose(a)
assert.Equal(t, aT, [][]*big.Float{
[]*big.Float{b0, b0, b0, bFive},
[]*big.Float{b1, b0, b1, b0},
[]*big.Float{b0, b0, b0, b0},
[]*big.Float{b0, b1, b0, b0},
[]*big.Float{b0, b0, b1, b0},
[]*big.Float{b0, b0, b0, b1},
})
}
func TestPol(t *testing.T) {
b0 := big.NewFloat(float64(0))
b1 := big.NewFloat(float64(1))
// b1neg := big.NewFloat(float64(-1))
// b2 := big.NewFloat(float64(2))
b2neg := big.NewFloat(float64(-2))
b3 := big.NewFloat(float64(3))
b4 := big.NewFloat(float64(4))
b5 := big.NewFloat(float64(5))
b6 := big.NewFloat(float64(6))
b16 := big.NewFloat(float64(16))
a := []*big.Float{b1, b0, b5}
b := []*big.Float{b3, b0, b1}
// polynomial multiplication
c := PolMul(a, b)
assert.Equal(t, c, []*big.Float{b3, b0, b16, b0, b5})
// polynomial addition
c = PolAdd(a, b)
assert.Equal(t, c, []*big.Float{b4, b0, b6})
// polynomial subtraction
c = PolSub(a, b)
assert.Equal(t, c, []*big.Float{b2neg, b0, b4})
// FloatPow
p := FloatPow(big.NewFloat(float64(5)), 3)
assert.Equal(t, p, big.NewFloat(float64(125)))
p = FloatPow(big.NewFloat(float64(5)), 0)
assert.Equal(t, p, big.NewFloat(float64(1)))
// NewPolZeroAt
r := NewPolZeroAt(3, 4, b4)
assert.Equal(t, PolEval(r, big.NewFloat(3)), b4)
r = NewPolZeroAt(2, 4, b3)
assert.Equal(t, PolEval(r, big.NewFloat(2)), b3)
}
func TestLagrangeInterpolation(t *testing.T) {
b0 := big.NewFloat(float64(0))
b5 := big.NewFloat(float64(5))
a := []*big.Float{b0, b0, b0, b5}
alpha := LagrangeInterpolation(a)
assert.Equal(t, PolEval(alpha, big.NewFloat(4)), b5)
aux, _ := PolEval(alpha, big.NewFloat(3)).Int64()
assert.Equal(t, aux, int64(0))
}
func TestR1CSToQAP(t *testing.T) {
b0 := big.NewFloat(float64(0))
b1 := big.NewFloat(float64(1))
b3 := big.NewFloat(float64(3))
b5 := big.NewFloat(float64(5))
b9 := big.NewFloat(float64(9))
b27 := big.NewFloat(float64(27))
b30 := big.NewFloat(float64(30))
b35 := big.NewFloat(float64(35))
a := [][]*big.Float{
[]*big.Float{b0, b1, b0, b0, b0, b0},
[]*big.Float{b0, b0, b0, b1, b0, b0},
[]*big.Float{b0, b1, b0, b0, b1, b0},
[]*big.Float{b5, b0, b0, b0, b0, b1},
}
b := [][]*big.Float{
[]*big.Float{b0, b1, b0, b0, b0, b0},
[]*big.Float{b0, b1, b0, b0, b0, b0},
[]*big.Float{b1, b0, b0, b0, b0, b0},
[]*big.Float{b1, b0, b0, b0, b0, b0},
}
c := [][]*big.Float{
[]*big.Float{b0, b0, b0, b1, b0, b0},
[]*big.Float{b0, b0, b0, b0, b1, b0},
[]*big.Float{b0, b0, b0, b0, b0, b1},
[]*big.Float{b0, b0, b1, b0, b0, b0},
}
// alphas, betas, gammas
alphas, betas, gammas, zx := R1CSToQAP(a, b, c)
fmt.Println(alphas)
fmt.Println(betas)
fmt.Println(gammas)
fmt.Print("Z(x): ")
fmt.Println(zx)
zexpected := []*big.Float{big.NewFloat(float64(24)), big.NewFloat(float64(-50)), big.NewFloat(float64(35)), big.NewFloat(float64(-10)), big.NewFloat(float64(1))}
assert.Equal(t, zx, zexpected)
// witness
w := []*big.Float{b1, b3, b35, b9, b27, b30}
fmt.Print("w: ")
fmt.Println(w)
// QAP A(x), B(x), C(x)
ax, bx, cx, px := CombinePolynomials(w, alphas, betas, gammas)
fmt.Print("A(x), B(x), C(x), P(x): ")
fmt.Println(ax)
fmt.Println(bx)
fmt.Println(cx)
fmt.Println(px)
hx := DivisorPolinomial(px, zx)
fmt.Print("H(x): ")
fmt.Println(hx)
}