parent
0f895b4795
commit
f694dd3754
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@ -1,166 +1,84 @@
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import {runBenchmark} from "./runner";
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import {runForAllImplementations} from "../test/switch";
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import {PublicKey, Signature, SecretKey} from "../src/interface";
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import {range, randomMessage} from "../test/util";
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import {aggCount, runs} from "./params";
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import {PublicKey, Signature} from "../src/interface";
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import {aggCount} from "./params";
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(async function () {
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await runForAllImplementations(async (bls, implementation) => {
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const msgSame = Buffer.alloc(32, 255);
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const sameMessage: {pk: PublicKey; msg: Uint8Array; sig: Signature}[] = [];
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const diffMessage: {pk: PublicKey; msg: Uint8Array; sig: Signature}[] = [];
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for (let i = 0; i < aggCount; i++) {
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const msg = Buffer.alloc(32, i + 1);
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const sk = bls.SecretKey.fromBytes(Buffer.alloc(32, i + 1));
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const pk = sk.toPublicKey();
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sameMessage.push({pk, msg: msgSame, sig: sk.sign(msgSame)});
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diffMessage.push({pk, msg, sig: sk.sign(msg)});
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}
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const {pk, msg, sig} = diffMessage[0];
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const sameMessageSig = bls.Signature.aggregate(sameMessage.map((s) => s.sig));
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const diffMessageSig = bls.Signature.aggregate(diffMessage.map((s) => s.sig));
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// verify
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await runBenchmark<{pk: PublicKey; msg: Uint8Array; sig: Signature}, boolean>({
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await runBenchmark({
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id: `${implementation} verify`,
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prepareTest: () => {
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const msg = randomMessage();
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const sk = bls.SecretKey.fromKeygen();
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const pk = sk.toPublicKey();
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const sig = sk.sign(msg);
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return {
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input: {pk, msg, sig},
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resultCheck: (valid) => valid === true,
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};
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},
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testRunner: ({pk, msg, sig}) => {
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return sig.verify(pk, msg);
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},
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runs,
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prepareTest: () => ({pk, msg, sig}),
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testRunner: ({pk, msg, sig}) => sig.verify(pk, msg),
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});
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// Fast aggregate
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await runBenchmark<{pks: PublicKey[]; msg: Uint8Array; sig: Signature}, boolean>({
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await runBenchmark({
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id: `${implementation} verifyAggregate (${aggCount})`,
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prepareTest: () => {
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const msg = randomMessage();
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const dataArr = range(aggCount).map(() => {
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const sk = bls.SecretKey.fromKeygen();
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const pk = sk.toPublicKey();
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const sig = sk.sign(msg);
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return {pk, sig};
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});
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const pks = dataArr.map((data) => data.pk);
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const sig = bls.Signature.aggregate(dataArr.map((data) => data.sig));
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return {
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input: {pks, msg, sig},
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resultCheck: (valid) => valid === true,
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};
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},
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testRunner: ({pks, msg, sig}) => {
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return sig.verifyAggregate(pks, msg);
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},
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runs,
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prepareTest: () => ({pks: sameMessage.map((s) => s.pk), msg: msgSame, sig: sameMessageSig}),
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testRunner: ({pks, msg, sig}) => sig.verifyAggregate(pks, msg),
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});
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// Verify multiple
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await runBenchmark<{pks: PublicKey[]; msgs: Uint8Array[]; sig: Signature}, boolean>({
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await runBenchmark({
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id: `${implementation} verifyMultiple (${aggCount})`,
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prepareTest: () => {
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const dataArr = range(aggCount).map(() => {
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const sk = bls.SecretKey.fromKeygen();
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const pk = sk.toPublicKey();
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const msg = randomMessage();
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const sig = sk.sign(msg);
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return {pk, msg, sig};
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});
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const pks = dataArr.map((data) => data.pk);
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const msgs = dataArr.map((data) => data.msg);
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const sig = bls.Signature.aggregate(dataArr.map((data) => data.sig));
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return {
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input: {pks, msgs, sig},
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resultCheck: (valid) => valid === true,
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};
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},
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testRunner: ({pks, msgs, sig}) => {
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return sig.verifyMultiple(pks, msgs);
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},
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runs,
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prepareTest: () => ({
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pks: diffMessage.map((s) => s.pk),
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msgs: diffMessage.map((s) => s.msg),
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sig: diffMessageSig,
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}),
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testRunner: ({pks, msgs, sig}) => sig.verifyMultiple(pks, msgs),
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});
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// Verify multiple signatures
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await runBenchmark({
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id: `${implementation} verifyMultipleSignatures (${aggCount})`,
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prepareTest: () => {
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const sets = range(aggCount).map(() => {
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const sk = bls.SecretKey.fromKeygen();
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const pk = sk.toPublicKey();
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const msg = randomMessage();
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const sig = sk.sign(msg);
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return {publicKey: pk, message: msg, signature: sig};
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});
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return {
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input: sets,
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resultCheck: (valid) => valid === true,
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};
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},
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testRunner: (sets) => {
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return bls.Signature.verifyMultipleSignatures(sets);
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},
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runs,
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prepareTest: () => diffMessage,
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testRunner: (sets) =>
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bls.Signature.verifyMultipleSignatures(sets.map((s) => ({publicKey: s.pk, message: s.msg, signature: s.sig}))),
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});
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// Aggregate pubkeys
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await runBenchmark<PublicKey[], void>({
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await runBenchmark({
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id: `${implementation} aggregate pubkeys (${aggCount})`,
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prepareTest: () => {
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return {
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input: range(aggCount).map(() => bls.SecretKey.fromKeygen().toPublicKey()),
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};
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},
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testRunner: (pks) => {
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bls.PublicKey.aggregate(pks);
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},
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runs,
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prepareTest: () => diffMessage.map((s) => s.pk),
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testRunner: (pks) => bls.PublicKey.aggregate(pks),
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});
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// Aggregate sigs
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await runBenchmark<Signature[], void>({
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await runBenchmark({
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id: `${implementation} aggregate signatures (${aggCount})`,
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prepareTest: () => {
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const msg = randomMessage();
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const sigs = range(aggCount).map(() => {
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const sk = bls.SecretKey.fromKeygen();
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return sk.sign(msg);
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});
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return {
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input: sigs,
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};
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},
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testRunner: (sigs) => {
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bls.Signature.aggregate(sigs);
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},
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runs,
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prepareTest: () => diffMessage.map((s) => s.sig),
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testRunner: (sigs) => bls.Signature.aggregate(sigs),
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});
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// Sign
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await runBenchmark<{sk: SecretKey; msg: Uint8Array}, void>({
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await runBenchmark({
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id: `${implementation} sign`,
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prepareTest: () => ({
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input: {
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sk: bls.SecretKey.fromKeygen(),
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msg: randomMessage(),
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},
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}),
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testRunner: ({sk, msg}) => {
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sk.sign(msg);
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},
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runs,
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prepareTest: () => ({sk: bls.SecretKey.fromKeygen(), msg: msgSame}),
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testRunner: ({sk, msg}) => sk.sign(msg),
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});
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});
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})();
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@ -5,133 +5,105 @@ import * as noble from "noble-bls12-381";
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import {aggCount, runsNoble} from "./params";
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(async function () {
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// verify
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{
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// verify
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await runBenchmark<{pk: noble.PointG1; msg: noble.PointG2; sig: noble.PointG2}, boolean>({
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id: `noble verify`,
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const priv = generateRandomSecretKey();
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const msg = randomMessage();
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const pk = noble.PointG1.fromPrivateKey(priv);
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const sig = noble.PointG2.fromSignature(await noble.sign(msg, priv));
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prepareTest: async () => {
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const priv = generateRandomSecretKey();
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const msg = randomMessage();
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const pk = noble.PointG1.fromPrivateKey(priv);
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const sig = noble.PointG2.fromSignature(await noble.sign(msg, priv));
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await runBenchmark<{pk: noble.PointG1; msg: noble.PointG2; sig: noble.PointG2}, boolean>({
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id: `noble verify`,
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prepareTest: async () => ({pk, msg: await noble.PointG2.hashToCurve(msg), sig}),
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testRunner: async ({pk, msg, sig}) => await noble.verify(sig, msg, pk),
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runs: runsNoble,
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});
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}
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return {
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input: {pk, msg: await noble.PointG2.hashToCurve(msg), sig},
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resultCheck: (valid: boolean) => valid === true,
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};
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},
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testRunner: async ({pk, msg, sig}) => {
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return await noble.verify(sig, msg, pk);
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},
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runs: runsNoble,
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});
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{
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// Fast aggregate
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// Fast aggregate
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const msg = randomMessage();
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const dataArr = await Promise.all(
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range(aggCount).map(async () => {
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const sk = generateRandomSecretKey();
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const pk = noble.PointG1.fromPrivateKey(sk);
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const sig = noble.PointG2.fromSignature(await noble.sign(msg, sk));
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return {pk, sig};
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})
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);
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await runBenchmark<{pks: noble.PointG1[]; msg: noble.PointG2; sig: noble.PointG2}, boolean>({
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id: `noble verifyAggregate (${aggCount})`,
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const pks = dataArr.map((data) => data.pk);
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const sig = (noble.aggregateSignatures(dataArr.map((data) => data.sig)) as any) as noble.PointG2;
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prepareTest: async () => {
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const msg = randomMessage();
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const dataArr = await Promise.all(
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range(aggCount).map(async () => {
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const sk = generateRandomSecretKey();
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const pk = noble.PointG1.fromPrivateKey(sk);
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const sig = noble.PointG2.fromSignature(await noble.sign(msg, sk));
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return {pk, sig};
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})
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);
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await runBenchmark({
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id: `noble verifyAggregate (${aggCount})`,
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prepareTest: async () => ({pks, msg: await noble.PointG2.hashToCurve(msg), sig}),
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testRunner: async ({pks, msg, sig}) =>
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await noble.verify(sig, msg, (noble.aggregatePublicKeys(pks) as any) as noble.PointG1),
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runs: runsNoble,
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});
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}
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const pks = dataArr.map((data) => data.pk);
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const sig = noble.aggregateSignatures(dataArr.map((data) => data.sig)) as any as noble.PointG2;
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{
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// Verify multiple
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return {
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input: {pks, msg: await noble.PointG2.hashToCurve(msg), sig},
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resultCheck: (valid: boolean) => valid === true,
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};
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},
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testRunner: async ({pks, msg, sig}) => {
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const pk = noble.aggregatePublicKeys(pks) as any as noble.PointG1;
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return await noble.verify(sig, msg, pk);
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},
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runs: runsNoble,
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});
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const dataArr = await Promise.all(
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range(aggCount).map(async () => {
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const sk = generateRandomSecretKey();
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const pk = noble.PointG1.fromPrivateKey(sk);
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const msg = randomMessage();
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const sig = noble.PointG2.fromSignature(await noble.sign(msg, sk));
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return {pk, msg: await noble.PointG2.hashToCurve(msg), sig};
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})
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);
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// // Verify multiple
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const pks = dataArr.map((data) => data.pk);
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const msgs = dataArr.map((data) => data.msg);
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const sig = (noble.aggregateSignatures(dataArr.map((data) => data.sig)) as any) as noble.PointG2;
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await runBenchmark<{pks: noble.PointG1[]; msgs: noble.PointG2[]; sig: noble.PointG2}, boolean>({
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id: `noble verifyMultiple (${aggCount})`,
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await runBenchmark({
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id: `noble verifyMultiple (${aggCount})`,
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prepareTest: async () => ({pks, msgs, sig}),
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testRunner: async ({pks, msgs, sig}) => await noble.verifyBatch(msgs, pks, sig),
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runs: runsNoble,
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});
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}
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prepareTest: async () => {
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const dataArr = await Promise.all(
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range(aggCount).map(async () => {
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const sk = generateRandomSecretKey();
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const pk = noble.PointG1.fromPrivateKey(sk);
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const msg = randomMessage();
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const sig = noble.PointG2.fromSignature(await noble.sign(msg, sk));
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return {pk, msg: await noble.PointG2.hashToCurve(msg), sig};
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})
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);
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{
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// Aggregate pubkeys
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const pks = dataArr.map((data) => data.pk);
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const msgs = dataArr.map((data) => data.msg);
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const sig = noble.aggregateSignatures(dataArr.map((data) => data.sig)) as any as noble.PointG2;
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const pubkeys = range(aggCount).map(() => noble.PointG1.fromPrivateKey(generateRandomSecretKey()));
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return {
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input: {pks, msgs, sig},
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resultCheck: (valid: boolean) => valid === true,
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};
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},
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testRunner: async ({pks, msgs, sig}) => {
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return await noble.verifyBatch(msgs, pks, sig);
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},
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runs: runsNoble,
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});
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await runBenchmark({
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id: `noble aggregate pubkeys (${aggCount})`,
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prepareTest: () => pubkeys,
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testRunner: async (pks) => noble.aggregatePublicKeys(pks),
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runs: runsNoble,
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});
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}
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// Aggregate pubkeys
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const hashes = await Promise.all(
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range(aggCount)
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.map(() => generateRandomSecretKey())
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.map(noble.PointG2.hashToCurve)
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);
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await runBenchmark<noble.PointG1[], void>({
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id: `noble aggregate pubkeys (${aggCount})`,
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prepareTest: () => {
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return {
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input: range(aggCount).map(() => noble.PointG1.fromPrivateKey(generateRandomSecretKey())),
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};
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},
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testRunner: async (pks) => {
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noble.aggregatePublicKeys(pks);
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},
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runs: runsNoble,
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});
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await runBenchmark<noble.PointG2[], void>({
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await runBenchmark({
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id: `noble aggregate signatures (${aggCount})`,
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prepareTest: async () => {
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const hashes = range(aggCount).map(() => generateRandomSecretKey()).map(noble.PointG2.hashToCurve);
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return {
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input: await Promise.all(hashes),
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};
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},
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testRunner: async (sigs) => {
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noble.aggregateSignatures(sigs);
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},
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prepareTest: () => hashes,
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testRunner: async (sigs) => noble.aggregateSignatures(sigs),
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runs: runsNoble,
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});
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await runBenchmark<{sk: Uint8Array; msg: noble.PointG2}, void>({
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id: `noble sign`,
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const sk = generateRandomSecretKey();
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const msg = await noble.PointG2.hashToCurve(randomMessage());
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prepareTest: async () => ({
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input: {
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sk: generateRandomSecretKey(),
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msg: await noble.PointG2.hashToCurve(randomMessage()),
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},
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}),
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testRunner: async ({sk, msg}) => {
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await noble.sign(msg, sk);
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},
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await runBenchmark({
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id: `noble sign`,
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prepareTest: () => ({sk, msg}),
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testRunner: async ({sk, msg}) => await noble.sign(msg, sk),
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runs: runsNoble,
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});
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})();
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@ -6,7 +6,7 @@ export async function runBenchmark<T, R>({
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runs = 100,
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id,
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}: {
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prepareTest: (i: number) => PromiseOptional<{input: T; resultCheck?: (result: R) => boolean}>;
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prepareTest: (i: number) => PromiseOptional<T>;
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testRunner: (input: T) => PromiseOptional<R>;
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runs?: number;
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id: string;
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@ -14,13 +14,12 @@ export async function runBenchmark<T, R>({
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const diffsNanoSec: bigint[] = [];
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for (let i = 0; i < runs; i++) {
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const {input, resultCheck} = await prepareTest(i);
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const input = await prepareTest(i);
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const start = process.hrtime.bigint();
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const result = await testRunner(input);
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const end = process.hrtime.bigint();
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if (resultCheck && !resultCheck(result)) throw Error("Result fails check test");
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diffsNanoSec.push(end - start);
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}
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Reference in New Issue