In a project I'm collaborating on, we have two choices on which module system we can use:

  1. Importing modules using require, and exporting using module.exports and exports.foo.
  2. Importing modules using ES6 import, and exporting using ES6 export

Are there any performance benefits to using one over the other? Is there anything else that we should know if we were to use ES6 modules over Node ones?

up vote 486 down vote accepted

Are there any performance benefits to using one over the other?

Keep in mind that there is no JavaScript engine yet that natively supports ES6 modules. You said yourself that you are using Babel. Babel converts import and export declaration to CommonJS (require/module.exports) by default anyway. So even if you use ES6 module syntax, you will be using CommonJS under the hood if you run the code in Node.

There are technical difference between CommonJS and ES6 modules, e.g. CommonJS allows you to load modules dynamically. ES6 doesn't allow this, but there is an API in development for that.

Since ES6 modules are part of the standard, I would use them.

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    I tried to use ES6 import with require but they worked differently. CommonJS exports the class itself while there is only one class. ES6 exports like there are multiple classes so you have to use .ClassName to get the exported class. Are there any other differences which actually effects the implementation – Thellimist Dec 19 '15 at 1:04
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    @Entei: Seems like you want a default export, not a named export. module.exports = ...; is equivalent to export default .... exports.foo = ... is equivalent to export var foo = ...; – Felix Kling Dec 19 '15 at 1:08
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    It's worth noting that even though Babel ultimately transpiles import to CommonJS in Node, used alongside Webpack 2 / Rollup (and any other bundler that allows ES6 tree shaking), it's possible to wind up with a file that is significantly smaller than the equivalent code Node crunches through using require exactly because of the fact ES6 allows static analysis of import/exports. Whilst this won't make a difference to Node (yet), it certainly can if the code is ultimately going to wind up as a single browser bundle. – Lee Benson Nov 29 '16 at 19:17
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    unless you need to do a dynamic import – chulian Feb 28 '17 at 7:03
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    @LeeBenson That is not the case for a lot of code in practice. See this rollup / lodash issue for example. – aaaaaa Apr 29 '17 at 1:17

There are several usage / capabilities you might want to consider:

Require:

  • You can have dynamic loading where the loaded module name isn't predefined /static, or where you conditionally load a module only if it's "truly required" (depending on certain code flow).
  • Loading is synchronous. That means if you have multiple requires, they are loaded and processed one by one.

ES6 Imports:

  • You can use named imports to selectively load only the pieces you need. That can save memory.
  • Import can be asynchronous (and in current ES6 Module Loader, it in fact is) and can perform a little better.

Also, the Require module system isn't standard based. It's is highly unlikely to become standard now that ES6 modules exist. In the future there will be native support for ES6 Modules in various implementations which will be advantageous in terms of performance.

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    What makes you think ES6 imports are asynchronous? – Felix Kling Jul 11 '15 at 12:56
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    @FelixKling - combination of various observations. Using JSPM (ES6 Module Loader...) I noticed that when an import modified the global namespace the effect isn't observed inside other imports (because they occur asynchronously.. This can also be seen in transpiled code). Also, since that is the behavior (1 import doesn't affect others) there no reason not to do so, so it could be implementation dependant – Amit Jul 11 '15 at 13:06
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    You mention something very important: module loader. While ES6 provides the import and export syntax, it does not define how modules should be loaded. The important part is that the declarations are statically analyzable, so that dependencies can be determined without executing the code. This would allow a module loader to either load a module synchronously or asynchronously. But ES6 modules by themselves are not synchronous or asynchronous. – Felix Kling Jul 11 '15 at 14:18
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    @FelixKling ES6 module loader was tagged in the OP so I assume it makes it relevant to the answer. Also I stated that based on observations async is current behavior, as well as possibility in the future (in any implementation) so it's a relevant point to consider. Do you think it's wrong? – Amit Jul 11 '15 at 14:23
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    I think it's important not to conflate the module system/syntax with the module loader. E.g if you develop for node, then you are likely compiling ES6 modules to require anyway, so you are using Node's module system and loader anyway. – Felix Kling Jul 11 '15 at 14:27

The main advantages are syntactic:

  • More declarative/compact syntax
  • ES6 modules will basically make UMD (Universal Module Definition) obsolete - essentially removes the schism between CommonJS and AMD (server vs browser).

You are unlikely to see any performance benefits with ES6 modules. You will still need an extra library to bundle the modules, even when there is full support for ES6 features in the browser.

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    Could you clarify why one needs a bundler even when browsers has full ES6 module support? – E. Sundin Jul 3 '16 at 15:15
  • Apologies, edited to make more sense. I meant that the import/export modules feature is not implemented in any browsers natively. A transpiler is still required. – snozza Jul 4 '16 at 9:23
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    It seems a bit contradictory frased to me. If there is full support then what is the purpose of the bundler? Is there something missing in the ES6 spec? What would the bundler actually do that isn't available in a fully supported environment? – E. Sundin Jul 4 '16 at 22:14
  • As @snozza said..."the import/export modules feature is not implemented in any browsers naively. A transpiler is still required" – robertmain Oct 13 '17 at 1:35
  • As I understand it, ES6 browser support now means you can use the simpler JavaScript module syntax (export and import) natively in most modern browsers. Unless you still need to write for IE9. Correct me if I've missed something glaringly obvious, but I can use ES6 modules (say) in Chrome running node's http-server with no other library. – Dave Everitt Jun 26 at 20:33

Are there any performance benefits to using one over the other?

The current answer is no, because none of the current browser engines implements import/export from the ES6 standard.

Some comparison charts http://kangax.github.io/compat-table/es6/ don't take this into account, so when you see almost all greens for Chrome, just be careful. import keyword from ES6 hasn't been taken into account.

In other words, current browser engines including V8 cannot import new JavaScript file from the main JavaScript file via any JavaScript directive.

( We may be still just a few bugs away or years away until V8 implements that according to the ES6 specification. )

This document is what we need, and this document is what we must obey.

And the ES6 standard said that the module dependencies should be there before we read the module like in the programming language C, where we had (headers) .h files.

This is a good and well-tested structure, and I am sure the experts that created the ES6 standard had that in mind.

This is what enables Webpack or other package bundlers to optimize the bundle in some special cases, and reduce some dependencies from the bundle that are not needed. But in cases we have perfect dependencies this will never happen.

It will need some time until import/export native support goes live, and the require keyword will not go anywhere for a long time.

What is require?

This is node.js way to load modules. ( https://github.com/nodejs/node )

Node uses system-level methods to read files. You basically rely on that when using require. require will end in some system call like uv_fs_open (depends on the end system, Linux, Mac, Windows) to load JavaScript file/module.

To check that this is true, try to use Babel.js, and you will see that the import keyword will be converted into require.

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  • Actually, there's one area where performance could be improved -- bundle size. Using import in a Webpack 2 / Rollup build process can potentially reduce the resulting file size by 'tree shaking' unused modules/code, that might otherwise wind up in the final bundle. Smaller file size = faster to download = faster to init/execute on the client. – Lee Benson Nov 29 '16 at 19:12
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    the reasoning was no current browser on the planet earth allows the import keyword natively. Or this means you cannot import another JavaScript file from a JavaScript file. This is why you cannot compare performance benefits of these two. But of course, tools like Webpack1/2 or Browserify can deal with compression. They are neck to neck: gist.github.com/substack/68f8d502be42d5cd4942 – prosti Nov 29 '16 at 19:46
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    You're overlooking 'tree shaking'. Nowhere in your gist link is tree shaking discussed. Using ES6 modules enables it, because import and export are static declarations that import a specific code path, whereas require can be dynamic and thus bundle in code that's not used. The performance benefit is indirect-- Webpack 2 and/or Rollup can potentially result in smaller bundle sizes that are faster to download, and therefore appear snappier to the end user (of a browser). This only works if all code is written in ES6 modules and therefore imports can be statically analysed. – Lee Benson Nov 30 '16 at 10:46
  • I updated the answer @LeeBenson, I think if we consider the native support from browser engines we cannot compare yet. What comes as handy three shaking option using the Webpack, may also be achieved even before we set the CommonJS modules, since for most of the real applications we know what modules should be used. – prosti Dec 5 '16 at 21:57
  • Your answer is totally valid, but I think we're comparing two different characteristics. All import/export is converted to require, granted. But what happens before this step could be considered "performance" enhancing. Example: If lodash is written in ES6 and you import { omit } from lodash, the ultimate bundle will ONLY contain 'omit' and not the other utilities, whereas a simple require('lodash') will import everything. This will increase the bundle size, take longer to download, and therefore decrease performance. This is only valid in a browser context, of course. – Lee Benson Dec 6 '16 at 7:42

Using ES6 modules can be useful for 'tree shaking'; i.e. enabling Webpack 2, Rollup (or other bundlers) to identify code paths that are not used/imported, and therefore don't make it into the resulting bundle. This can significantly reduce its file size by eliminating code you'll never need, but with CommonJS is bundled by default because Webpack et al have no way of knowing whether it's needed.

This is done using static analysis of the code path.

For example, using:

import { somePart } 'of/a/package';

... gives the bundler a hint that package.anotherPart isn't required (if it's not imported, it can't be used- right?), so it won't bother bundling it.

To enable this for Webpack 2, you need to ensure that your transpiler isn't spitting out CommonJS modules. If you're using the es2015 plug-in with babel, you can disable it in your .babelrc like so:

{
  "presets": [
    ["es2015", { modules: false }],
  ]
}

Rollup and others may work differently - view the docs if you're interested.

When it comes to async or maybe lazy loading, then import () is much more powerful. See when we require component in async manner, then only we import it in some async manner as in const variable.

const module = await import('./module.js');

Or if you want to use require() then,

const converter = require('./converter');

Thing is import() is actually async in nature. As mentioned by neehar venugopal in ReactConf, you can use it to dynamically load components.

Also it is way better when it comes to Routing. That is the one special thing that makes network log to download necessary part when user connects to specific website to its specific component. eg. login page before dashboard would'nt download all components of dashboard. Because what is needed current i.e. login component, that only will be downloaded.

NOTE - If you are developing a node.js project, then you have to strictly use require() as node will throw exception error as invalid token 'import' if you will use import . So node does not support import statements

See this for more clearance where to use async imports - https://www.youtube.com/watch?v=bb6RCrDaxhw

I personally use import because, we can import the required methods, members by using import.

import {foo, bar} from "dep";

FileName: dep.js

export foo function(){};
export const bar = 22

Credit goes to Paul Shan. More info.

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