|
|
const chai = require("chai"); const snarkjs = require("snarkjs");
const smt = require("../src/smt.js"); const mimcjs = require("../src/mimc7.js");
const assert = chai.assert; const expect = chai.expect;
const bigInt = snarkjs.bigInt;
function stringifyBigInts(o) { if ((typeof(o) == "bigint") || (o instanceof bigInt)) { return o.toString(10); } else if (Array.isArray(o)) { return o.map(stringifyBigInts); } else if (typeof o == "object") { const res = {}; for (let k in o) { res[k] = stringifyBigInts(o[k]); } return res; } else { return o; } }
function newEntryFromInts(a, b, c, d) { return { hi: mimcjs.hash(c, d), hv: mimcjs.hash(a, b), }; }
function smtHash(arr) { let r = bigInt(0); for (let i=0; i<arr.length; i++) { r = mimcjs.hash(r, bigInt(arr[i]), 91 ); } return r; }
describe("SMT Javascript test", function () { this.timeout(100000); before( async () => { });
it("test MIMC7", async() => { //const h = mimcjs.multiHash(1,2,3);
//const h = smtHash([1,2,3]);
//console.log(h.toString(10));
const mimcjs = require("../src/mimc7.js"); const snarkjs = require("snarkjs"); const bigInt = snarkjs.bigInt; const smt = require("../src/smt.js");
h = mimcjs.hash(1,2,91); console.log(h);
function smtHash(arr) { let r = bigInt(0); for (let i=0; i<arr.length; i++) { r = mimcjs.hash(r, bigInt(arr[i]), 91 ); } return r; }
console.log(smtHash([1, 2, 3])); // Test from old ver
});
//it("Should calculate hindex", async() => {
// const entry = newEntryFromInts(12, 45, 78, 41);
// //console.log(entry.hi.toString(16));
// expect(entry.hi.toString(16)).to.be.
// equal("114438e8321f62c4a1708f443a5a66f9c8fcb0958e7b7008332b71442610b7a0");
//});
//it("Should insert 2 elements and empty them", async () => {
// const tree = await smt.newMemEmptyTrie();
// const key1 = bigInt(111);
// const value1 = bigInt(222);
// const key2 = bigInt(333);
// const value2 = bigInt(444);
// await tree.insert(key1,value1);
// await tree.insert(key2,value2);
// await tree.delete(key2);
// await tree.delete(key1);
// assert(tree.root.isZero());
//});
//it("Should insert 3 elements in dferent order and should be the same", async () => {
// const keys = [bigInt(8), bigInt(9), bigInt(32)];
// const values = [bigInt(88), bigInt(99), bigInt(3232)];
// const tree1 = await smt.newMemEmptyTrie();
// const tree2 = await smt.newMemEmptyTrie();
// const tree3 = await smt.newMemEmptyTrie();
// const tree4 = await smt.newMemEmptyTrie();
// const tree5 = await smt.newMemEmptyTrie();
// const tree6 = await smt.newMemEmptyTrie();
// await tree1.insert(keys[0],values[0]);
// await tree1.insert(keys[1],values[1]);
// await tree1.insert(keys[2],values[2]);
// await tree2.insert(keys[0],values[0]);
// await tree2.insert(keys[2],values[2]);
// await tree2.insert(keys[1],values[1]);
// await tree3.insert(keys[1],values[1]);
// await tree3.insert(keys[0],values[0]);
// await tree3.insert(keys[2],values[2]);
// await tree4.insert(keys[1],values[1]);
// await tree4.insert(keys[2],values[2]);
// await tree4.insert(keys[0],values[0]);
// await tree5.insert(keys[2],values[2]);
// await tree5.insert(keys[0],values[0]);
// await tree5.insert(keys[1],values[1]);
// await tree6.insert(keys[2],values[2]);
// await tree6.insert(keys[1],values[1]);
// await tree6.insert(keys[0],values[0]);
// assert(tree1.root.equals(tree2.root));
// assert(tree2.root.equals(tree3.root));
// assert(tree3.root.equals(tree4.root));
// assert(tree4.root.equals(tree5.root));
// assert(tree5.root.equals(tree6.root));
// assert.equal(Object.keys(tree1.db.nodes).length, Object.keys(tree2.db.nodes).length);
// assert.equal(Object.keys(tree2.db.nodes).length, Object.keys(tree3.db.nodes).length);
// assert.equal(Object.keys(tree3.db.nodes).length, Object.keys(tree4.db.nodes).length);
// assert.equal(Object.keys(tree4.db.nodes).length, Object.keys(tree5.db.nodes).length);
// assert.equal(Object.keys(tree5.db.nodes).length, Object.keys(tree6.db.nodes).length);
// await tree1.delete(keys[0]);
// await tree1.delete(keys[1]);
// await tree2.delete(keys[1]);
// await tree2.delete(keys[0]);
// assert(tree1.root.equals(tree2.root));
// await tree3.delete(keys[0]);
// await tree3.delete(keys[2]);
// await tree4.delete(keys[2]);
// await tree4.delete(keys[0]);
// assert(tree3.root.equals(tree4.root));
// await tree5.delete(keys[1]);
// await tree5.delete(keys[2]);
// await tree6.delete(keys[2]);
// await tree6.delete(keys[1]);
// assert(tree5.root.equals(tree6.root));
// await tree1.delete(keys[2]);
// await tree2.delete(keys[2]);
// await tree3.delete(keys[1]);
// await tree4.delete(keys[1]);
// await tree5.delete(keys[0]);
// await tree6.delete(keys[0]);
// assert(tree1.root.isZero());
// assert(tree2.root.isZero());
// assert(tree3.root.isZero());
// assert(tree4.root.isZero());
// assert(tree5.root.isZero());
// assert(tree6.root.isZero());
// assert.equal(Object.keys(tree1.db.nodes).length, 0);
// assert.equal(Object.keys(tree2.db.nodes).length, 0);
// assert.equal(Object.keys(tree3.db.nodes).length, 0);
// assert.equal(Object.keys(tree4.db.nodes).length, 0);
// assert.equal(Object.keys(tree5.db.nodes).length, 0);
// assert.equal(Object.keys(tree6.db.nodes).length, 0);
//});
//it("Insert and remove 100 numbers randomly", async () => {
// function perm(a) {
// const arr = a.slice();
// const rArr = [];
// for (let i=0; i<arr.length; i++) {
// let rIdx = Math.floor(Math.random() * (arr.length - i));
// rArr.push(arr[rIdx]);
// arr[rIdx] = arr[arr.length - i - 1];
// }
// return rArr;
// }
// const tree = await smt.newMemEmptyTrie();
// const arr = [];
// const N = 100;
// for (let i=0; i<N; i++) {
// arr.push(bigInt(i));
// }
// const insArr = perm(arr);
// for (let i=0; i<N; i++) {
// await tree.insert(insArr[i], i);
// }
// const delArr = perm(insArr);
// for (let i=0; i<N; i++) {
// await tree.delete(delArr[i]);
// }
// assert(tree.root.isZero());
// assert.equal(Object.keys(tree.db.nodes).length, 0);
//});
//it("Should test update", async () => {
// const tree1 = await smt.newMemEmptyTrie();
// const tree2 = await smt.newMemEmptyTrie();
// await tree1.insert(8,88);
// await tree1.insert(9,99,);
// await tree1.insert(32,3232);
// await tree2.insert(8,888);
// await tree2.insert(9,999);
// await tree2.insert(32,323232);
// await tree1.update(8, 888);
// await tree1.update(9, 999);
// await tree1.update(32, 323232);
// assert(tree1.root.equals(tree2.root));
//});
});
|