218 lines
7.0 KiB
JavaScript
218 lines
7.0 KiB
JavaScript
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/*
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Copyright 2018 0kims association.
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This file is part of zksnark JavaScript library.
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zksnark JavaScript library is a free software: you can redistribute it and/or
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modify it under the terms of the GNU General Public License as published by the
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Free Software Foundation, either version 3 of the License, or (at your option)
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any later version.
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zksnark JavaScript library is distributed in the hope that it will be useful,
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but WITHOUT ANY WARRANTY; without even the implied warranty of MERCHANTABILITY
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or FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License for
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more details.
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You should have received a copy of the GNU General Public License along with
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zksnark JavaScript library. If not, see <https://www.gnu.org/licenses/>.
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*/
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const chai = require("chai");
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const bigInt = require("../src/bigint.js");
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const PolField = require("../src/polfield.js");
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const ZqField = require("../src/zqfield");
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const assert = chai.assert;
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const r = bigInt("21888242871839275222246405745257275088548364400416034343698204186575808495617");
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describe("Polynomial field", () => {
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it("Should compute a multiplication", () => {
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const PF = new PolField(new ZqField(r));
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const a = [bigInt(1), bigInt(2), bigInt(3)];
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const b = [bigInt(1), bigInt(2), bigInt(3)];
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const res = PF.mul(a,b);
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assert(PF.equals(res, [bigInt(1), bigInt(4), bigInt(10), bigInt(12), bigInt(9)]));
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});
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it("Should compute a multiplication 2", () => {
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const PF = new PolField(new ZqField(r));
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const a = [bigInt(5), bigInt(1)];
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const b = [bigInt(-5), bigInt(1)];
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const res = PF.mul(a,b);
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assert(PF.equals(res, [bigInt(-25), bigInt(0), bigInt(1)]));
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});
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it("Should compute an addition", () => {
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const PF = new PolField(new ZqField(r));
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const a = [bigInt(5), bigInt(1)];
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const b = [bigInt(-5), bigInt(1)];
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const res = PF.add(a,b);
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assert(PF.equals(res, [bigInt(0), bigInt(2)]));
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});
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it("Should compute a substraction", () => {
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const PF = new PolField(new ZqField(r));
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const a = [bigInt(5), bigInt(3), bigInt(4)];
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const b = [bigInt(5), bigInt(1)];
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const res = PF.sub(a,b);
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assert(PF.equals(res, [bigInt(0), bigInt(2), bigInt(4)]));
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});
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it("Should compute reciprocal", () => {
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const PF = new PolField(new ZqField(r));
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const a = [bigInt(4), bigInt(1), bigInt(-3), bigInt(-1), bigInt(2),bigInt(1), bigInt(-1), bigInt(1)];
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const res = PF._reciprocal(a, 3, 0);
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assert(PF.equals(res, [bigInt(12), bigInt(15), bigInt(3), bigInt(-4), bigInt(-3), bigInt(0), bigInt(1), bigInt(1)]));
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});
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it("Should div2", () => {
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const PF = new PolField(new ZqField(r));
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// x^6
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const a = [bigInt(0), bigInt(0), bigInt(0), bigInt(0), bigInt(0),bigInt(0), bigInt(1)];
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// x^5
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const b = [bigInt(0), bigInt(0), bigInt(0), bigInt(0), bigInt(0), bigInt(1)];
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const res = PF._div2(6, b);
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assert(PF.equals(res, [bigInt(0), bigInt(1)]));
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const res2 = PF.div(a,b);
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assert(PF.equals(res2, [bigInt(0), bigInt(1)]));
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});
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it("Should div", () => {
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const PF = new PolField(new ZqField(r));
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const a = [bigInt(1), bigInt(2), bigInt(3), bigInt(4), bigInt(5),bigInt(6), bigInt(7)];
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const b = [bigInt(8), bigInt(9), bigInt(10), bigInt(11), bigInt(12), bigInt(13)];
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const c = PF.mul(a,b);
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const d = PF.div(c,b);
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assert(PF.equals(a, d));
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});
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it("Should div big/small", () => {
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const PF = new PolField(new ZqField(r));
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const a = [bigInt(1), bigInt(2), bigInt(3), bigInt(4), bigInt(5),bigInt(6), bigInt(7)];
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const b = [bigInt(8), bigInt(9)];
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const c = PF.mul(a,b);
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const d = PF.div(c,b);
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assert(PF.equals(a, d));
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});
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it("Should div random big", () => {
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const PF = new PolField(new ZqField(r));
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const a = [];
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const b = [];
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for (let i=0; i<1000; i++) a.push(bigInt(Math.floor(Math.random()*100000) -500000));
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for (let i=0; i<900; i++) b.push(bigInt(Math.floor(Math.random()*100000) -500000));
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const c = PF.mul(a,b);
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const d = PF.div(c,b);
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assert(PF.equals(a, d));
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}).timeout(10000);
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it("Should evaluate and zero", () => {
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const PF = new PolField(new ZqField(r));
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const p = [PF.F.neg(bigInt(2)), bigInt(1)];
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const v = PF.eval(p, bigInt(2));
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assert(PF.F.equals(v, bigInt(0)));
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});
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it("Should evaluate bigger number", () => {
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const PF = new PolField(new ZqField(r));
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const p = [bigInt(1), bigInt(2), bigInt(3)];
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const v = PF.eval(p, bigInt(2));
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assert(PF.F.equals(v, bigInt(17)));
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});
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it("Should create lagrange polynomial minmal", () => {
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const PF = new PolField(new ZqField(r));
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const points=[];
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points.push([bigInt(1), bigInt(1)]);
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points.push([bigInt(2), bigInt(2)]);
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points.push([bigInt(3), bigInt(5)]);
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const p=PF.lagrange(points);
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for (let i=0; i<points.length; i++) {
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const v = PF.eval(p, points[i][0]);
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assert(PF.F.equals(v, points[i][1]));
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}
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});
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it("Should create lagrange polynomial", () => {
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const PF = new PolField(new ZqField(r));
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const points=[];
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points.push([bigInt(1), bigInt(2)]);
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points.push([bigInt(2), bigInt(-2)]);
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points.push([bigInt(3), bigInt(0)]);
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points.push([bigInt(4), bigInt(453345)]);
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const p=PF.lagrange(points);
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for (let i=0; i<points.length; i++) {
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const v = PF.eval(p, points[i][0]);
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assert(PF.F.equals(v, points[i][1]));
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}
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});
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it("Should test ruffini", () => {
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const PF = new PolField(new ZqField(r));
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const a = [bigInt(1), bigInt(2), bigInt(3), bigInt(4), bigInt(5),bigInt(6), bigInt(7)];
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const b = PF.mul(a, [bigInt(-7), bigInt(1)]);
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const c = PF.ruffini(b, bigInt(7));
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assert(PF.equals(a, c));
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});
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it("Should test roots", () => {
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const PF = new PolField(new ZqField(r));
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let rt;
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rt = PF.oneRoot(256, 16);
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for (let i=0; i<8; i++) {
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rt = PF.F.mul(rt, rt);
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}
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assert(rt.equals(PF.F.one));
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rt = PF.oneRoot(256, 15);
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for (let i=0; i<8; i++) {
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rt = PF.F.mul(rt, rt);
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}
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assert(rt.equals(PF.F.one));
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rt = PF.oneRoot(8, 3);
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for (let i=0; i<3; i++) {
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rt = PF.F.mul(rt, rt);
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}
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assert(rt.equals(PF.F.one));
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rt = PF.oneRoot(8, 0);
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assert(rt.equals(PF.F.one));
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});
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it("Should create a polynomial with values at roots with fft", () => {
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const PF = new PolField(new ZqField(r));
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const a = [bigInt(1), bigInt(2), bigInt(3), bigInt(4), bigInt(5),bigInt(6), bigInt(7)];
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const p = PF.ifft(a);
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for (let i=0; i<a.length; i++) {
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const s = PF.F.affine(PF.eval(p, PF.oneRoot(8,i)));
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assert(s.equals(a[i]));
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}
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});
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});
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