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circomlib

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Basic circuits library for Circom

github.com/iden3/circomlib

iden3/circomlib

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const chai = require("chai"); const path = require("path"); const wasm_tester = require("circom_tester").wasm; const buildBabyjub = require("circomlibjs").buildBabyjub; const Scalar = require("ffjavascript").Scalar; const assert = chai.assert; function print(circuit, w, s) { console.log(s + ": " + w[circuit.getSignalIdx(s)]); } describe("Escalarmul test", function () { let babyJub; let Fr; let circuit; this.timeout(100000); before( async() => { babyJub = await buildBabyjub(); Fr = babyJub.F; circuit = await wasm_tester(path.join(__dirname, "circuits", "escalarmulfix_test.circom")); }); it("Should generate Same escalar mul", async () => { const w = await circuit.calculateWitness({"e": 0}); await circuit.checkConstraints(w); await circuit.assertOut(w, {out: [0,1]}, true); }); it("Should generate Same escalar mul", async () => { const w = await circuit.calculateWitness({"e": 1}, true); await circuit.checkConstraints(w); await circuit.assertOut(w, {out: [Fr.toObject(babyJub.Base8[0]), Fr.toObject(babyJub.Base8[1])]}); }); it("Should generate scalar mul of a specific constant", async () => { const s = Scalar.e("2351960337287830298912035165133676222414898052661454064215017316447594616519"); const base8 = [ Fr.e("5299619240641551281634865583518297030282874472190772894086521144482721001553"), Fr.e("16950150798460657717958625567821834550301663161624707787222815936182638968203") ]; const w = await circuit.calculateWitness({"e": s}, true); await circuit.checkConstraints(w); const expectedRes = babyJub.mulPointEscalar(base8, s); await circuit.assertOut(w, {out: [Fr.toObject(expectedRes[0]), Fr.toObject(expectedRes[1])]}); }); it("Should generate scalar mul of the firsts 50 elements", async () => { const base8 = [ Fr.e("5299619240641551281634865583518297030282874472190772894086521144482721001553"), Fr.e("16950150798460657717958625567821834550301663161624707787222815936182638968203") ]; for (let i=0; i<50; i++) { const s = Scalar.e(i); const w = await circuit.calculateWitness({"e": s}, true); await circuit.checkConstraints(w); const expectedRes = babyJub.mulPointEscalar(base8, s); await circuit.assertOut(w, {out: [Fr.toObject(expectedRes[0]), Fr.toObject(expectedRes[1])]}); } }); it("If multiply by order should return 0", async () => { const w = await circuit.calculateWitness({"e": babyJub.subOrder }, true); await circuit.checkConstraints(w); await circuit.assertOut(w, {out: [0,1]}); }); });