const chai = require("chai");
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const path = require("path");
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const snarkjs = require("snarkjs");
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const compiler = require("circom");
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const smt = require("../src/smt.js");
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const assert = chai.assert;
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const bigInt = snarkjs.bigInt;
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function print(circuit, w, s) {
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console.log(s + ": " + w[circuit.getSignalIdx(s)]);
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}
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async function testInsert(tree, key, value, circuit, log ) {
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const res = await tree.insert(key,value);
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let siblings = res.sibblings;
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while (siblings.length<10) siblings.push(bigInt(0));
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const w = circuit.calculateWitness({
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fnc: [1,0],
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oldRoot: res.oldRoot,
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newRoot: res.newRoot,
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siblings: siblings,
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oldKey: res.oldKey,
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oldValue: res.oldValue,
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isOld0: res.isOld0 ? 1 : 0,
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newKey: key,
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newValue: value
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}, log);
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const root1 = w[circuit.getSignalIdx("main.topSwitcher.outR")];
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assert(circuit.checkWitness(w));
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assert(root1.equals(res.newRoot));
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}
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async function testDelete(tree, key, circuit) {
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const res = await tree.delete(key);
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let siblings = res.sibblings;
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while (siblings.length<10) siblings.push(bigInt(0));
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const w = circuit.calculateWitness({
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fnc: [1,1],
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oldRoot: res.oldRoot,
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newRoot: res.newRoot,
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siblings: siblings,
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oldKey: res.oldKey,
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oldValue: res.oldValue,
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isOld0: res.isOld0 ? 1 : 0,
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newKey: res.delKey,
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newValue: res.delValue
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});
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const root1 = w[circuit.getSignalIdx("main.topSwitcher.outR")];
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assert(circuit.checkWitness(w));
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assert(root1.equals(res.newRoot));
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}
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describe("SMT test", function () {
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let circuit;
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let tree;
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this.timeout(100000);
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before( async () => {
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const cirDef = await compiler(path.join(__dirname, "circuits", "smtinsert10_test.circom"));
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circuit = new snarkjs.Circuit(cirDef);
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console.log("NConstrains SMTInsert: " + circuit.nConstraints);
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tree = await smt.newMemEmptyTrie();
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});
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it("Should verify an insert to an empty tree", async () => {
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const key = bigInt(111);
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const value = bigInt(222);
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await testInsert(tree, key, value, circuit);
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});
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it("It should add another element", async () => {
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const key = bigInt(333);
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const value = bigInt(444);
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await testInsert(tree, key, value, circuit);
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});
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it("Should remove an element", async () => {
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await testDelete(tree, 111, circuit);
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await testDelete(tree, 333, circuit);
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});
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it("Should test convination of adding and removing 3 elements", async () => {
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const keys = [bigInt(8), bigInt(9), bigInt(32)];
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const values = [bigInt(88), bigInt(99), bigInt(3232)];
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const tree1 = await smt.newMemEmptyTrie();
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const tree2 = await smt.newMemEmptyTrie();
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const tree3 = await smt.newMemEmptyTrie();
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const tree4 = await smt.newMemEmptyTrie();
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const tree5 = await smt.newMemEmptyTrie();
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const tree6 = await smt.newMemEmptyTrie();
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await testInsert(tree1,keys[0],values[0], circuit);
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await testInsert(tree1,keys[1],values[1], circuit, console.log);
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/* await testInsert(tree1,keys[2],values[2], circuit);
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await testInsert(tree2,keys[0],values[0], circuit);
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await testInsert(tree2,keys[2],values[2], circuit);
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await testInsert(tree2,keys[1],values[1], circuit);
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await testInsert(tree3,keys[1],values[1], circuit);
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await testInsert(tree3,keys[0],values[0], circuit);
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await testInsert(tree3,keys[2],values[2], circuit);
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await testInsert(tree4,keys[1],values[1], circuit);
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await testInsert(tree4,keys[2],values[2], circuit);
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await testInsert(tree4,keys[0],values[0], circuit);
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await testInsert(tree5,keys[2],values[2], circuit);
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await testInsert(tree5,keys[0],values[0], circuit);
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await testInsert(tree5,keys[1],values[1], circuit);
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await testInsert(tree6,keys[2],values[2], circuit);
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await testInsert(tree6,keys[1],values[1], circuit);
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await testInsert(tree6,keys[0],values[0], circuit);
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await testDelete(tree1, keys[0], circuit);
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await testDelete(tree1, keys[1], circuit);
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await testDelete(tree2, keys[1], circuit);
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await testDelete(tree2, keys[0], circuit);
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await testDelete(tree3, keys[0], circuit);
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await testDelete(tree3, keys[2], circuit);
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await testDelete(tree4, keys[2], circuit);
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await testDelete(tree4, keys[0], circuit);
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await testDelete(tree5, keys[1], circuit);
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await testDelete(tree5, keys[2], circuit);
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await testDelete(tree6, keys[2], circuit);
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await testDelete(tree6, keys[1], circuit);
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await testDelete(tree1, keys[2], circuit);
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await testDelete(tree2, keys[2], circuit);
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await testDelete(tree3, keys[1], circuit);
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await testDelete(tree4, keys[1], circuit);
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await testDelete(tree5, keys[0], circuit);
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await testDelete(tree6, keys[0], circuit); */
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});
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it("Should match a NOp with random vals", async () => {
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let siblings = [];
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while (siblings.length<10) siblings.push(bigInt(88));
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const w = circuit.calculateWitness({
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fnc: [0,0],
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oldRoot: 11,
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newRoot: 22,
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siblings: siblings,
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oldKey: 33,
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oldValue: 44,
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isOld0: 55,
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newKey: 66,
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newValue: 77
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});
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assert(circuit.checkWitness(w));
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});
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it("Should update an element", async () => {
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});
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it("Should verify existance of an element", async () => {
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});
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it("Should verify non existance of an element", async () => {
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});
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});
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