In a JavaScript ES6-module, there may be many, small, easy-to-test functions that should be tested, but shouldn't be exported. How do I test functions in a module without exporting them? (without using Rewire).

  • 1
    If they're not exported, that means they're not public, right? I assume in that case they are being used by the publicly exported function/class/whatever, so you can test them through what's publicly available.
    – Alex Szabo
    Jan 9 '19 at 18:18
  • 1
    @AlexSzabó Yes they are, but I'm looking for a way to test them directly. The public function that uses them (in my case) is a complicated generator function that makes it difficult to test them through the public function
    – Jordan
    Jan 9 '19 at 18:24
  • 1
    First of all, sorry that I won't be able to help you in any meaningful way :( - but exposing private functions just for the sake of testing is not considered a good practice. If the functions are generic enough, you could expose them publicly with explicit unit tests, but if they're not, then you're making your tests highly coupled with the implementation details, so they can break (for example) on refactoring without any real change in the behaviour.
    – Alex Szabo
    Jan 9 '19 at 18:30
  • @AlexSzabó Yes, I whole-heatedly agree with you. Thanks for you input! This is probably just an issue that i'm running into due to the particularly complex tools that I'm having to use for this project.
    – Jordan
    Jan 9 '19 at 18:56
  • 4
    I need to find a way to do this too. Testing the functionality of the private methods by exercising the public one is not a very meaningful unit test. That public method could call a ton of private ones, and when it fails, you won't know where or why.
    – nullsteph
    Feb 4 '20 at 23:54

Export an "exportedForTesting" const

function shouldntBeExportedFn(){
  // Does stuff that needs to be tested
  // but is not for use outside of this package

export function exportedFn(){
  // A function that should be called
  // from code outside of this package and
  // uses other functions in this package

export const exportedForTesting = {

The following can be used in production code:

import { exportedFn } from './myPackage';

And this can be used in unit tests:

import { exportedFn, exportedForTesting } from './myPackage';
const { shouldntBeExportedFn } = exportedForTesting;

This strategy retains the context clues for other developers on my team that shouldntBeExportedFn() should not be used outside of the package except for testing.

I've been using this for years, and I find that it works very well.

  • 1
    I'm afraid this is the only answer. A reflection class would be handy. Something that would allow you to import a module definition file and get access to the non exported fields.
    – nullsteph
    Feb 4 '20 at 23:57
  • 4
    This is a practical idea but it's exporting anyway. It might be better if exported conditionally like using process.env.NODE_ENV === 'test'
    – Kennyhyun
    Dec 4 '20 at 1:10
  • 1
    @Kennyhyun, interesting idea! With webpack's DefinePlugin and UglifyJS removing if('test' === 'test'){ I think that could work - it'd just have to output is that has the export at top level.
    – Jordan
    Dec 4 '20 at 17:00

I wish I had a better answer for you, Jordan. 😊 I had very similar question in both JavaScript and C# contexts in the past...

Answser / not answer

At some point I had to embrace the fact that if I want granular unit tests that cover unexported/private functions/methods, I really should expose them. Some people would say that it's a violation of encapsulation, yet others disagree with that. The former group of people would also say that until a function is exported/public, it's essentially an implementation detail, thus should not be unit-tested.

If you're practicing TDD then Mark Seeman's explanation should be relevant (Pluralsight), and hopefully it will clarify why it's okay to expose things.

I don't know if you can find some trick for invoking the unexported functions directly from your unit tests without making changes to the code under test, but I would not go that way personally.

Just an option

Another option is to split your library into two. Say, library A is your application code, and library B is the package that contains all those functions you would like to avoid exporting from A's interface.

If they are two different libraries, you can control on a very fine level what is exposed and how it is tested. Library A will just depend on B without leaking any of the B's details. Both A and B are then testable independently.

This will require different code organization, sure, but it will work. Tools like Lerna simplify multi-package repositories for JavaScript code.

Side note

I don't agree with AlexSzabó, to be honest. Testing the non-exported function by testing the function(s) that use it is not really unit-testing.

  • I agree that "private functions are an implementation detail" and it's not them that they need to be tested, but the behaviour of your publicly available function, class or whatever you have at hand. Like you said, when you are doing TDD, you have a unit that you intend to use somewhere else, and you keep adding tests to describe what it should do given certain conditions - therefore testing its behaviour, not it's internals.
    – Alex Szabo
    Jan 9 '19 at 18:48
  • 1
    @AlexSzabó I recommend you to watch the Mark Seeman's video I put a link to. He explains that with TDD testing "internals" may be totally fine. Over the years I more and more find proofs that "internals" vs "interface" is very relative in the context of unit-testing. Jan 9 '19 at 19:06
  • Can't you express it without misspelling "answer"? It is not at all clear what you mean. Oct 3 '20 at 15:07

Maybe necro-posting but the way I attacked this problem is by using an 'index.js' which exports only the function(s) you want to be made public.

You still have to export the private functions, but this way does add a layer of abstraction between testing and production.


function privateFunction1() {/**/};
function privateFunction2() {/**/};

// Different syntax is a good visual indicator that this is different to public function
exports.privateFunction1 = privateFunction1;
exports.privateFunction2 = privateFunction2;

exports.publicFunction1 = function() {/**/};
exports.publicFunction2 = function() {/**/};


exports.publicFunction1 = require('./startingFile.js').publicFunction1;
exports.publicFunction2 = require('./startingFile.js').publicFunction2;


const { publicFunction1, publicFunction2 } = require('./module');

You could even use the NODE_ENV variable to only export the private functions when not in production.

  • That seems like a good solution for a public module :)
    – Jordan
    Nov 18 '21 at 22:31

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