A Yeoman generator to author libraries in ES2015 (and beyond!) for Node and the browser.
✓ Author in ES2015 (including the unit tests)
✓ Export as ES5 & UMD
✓ Mocha-Chai-Sinon testing stack
✓ Unit tests that work in Node and in the browser
Install yo
and this generator globally.
npm install -g yo generator-babel-boilerplate
Navigate to the directory you'd like to use for your project, then run yo babel-boilerplate
.
Answer a few questions, and your project will be scaffolded.
Write your code in src
. The entry file is what you named the project in kebab case (although the filename
can be changed).
Run npm run build
to compile the source into a distributable format.
Put your unit tests in test/unit
. The npm test
command runs the tests using Node. If your library / tests
require the DOM API, see the test/setup/node.js
file.
npm test
- Lint the library and tests, then run the unit testsnpm run lint
- Lint the source and unit testsnpm run watch
- Continuously run the unit tests as you make changes to the source and test files themselvesnpm run test-browser
- Build the library for use with the browser spec runner. Changes to the source will cause the runner to automatically refresh.npm run build
- Lint then build the librarynpm run coverage
- Generate a coverage report
The browser spec runner can be opened in a browser to run your tests. For it to work, you must first run npm run test-browser
. This will set up a watch task that will automatically refresh the tests when your scripts, or the tests, change. The spec runner file is located at test/runner.html
: open it in your browser to run tests.
This library is set up to integrate with Code Climate. If you've never used Code Climate, then you might be wondering why it's useful. There are two reasons:
- It consumes code coverage reports, and provides a coverage badge for the README
- It provides interesting stats on your library, if you're into that kinda thing
Either of these items on the list can simply be ignored if you're uninterested in them. Or you can pull Code Climate out entirely from the boilerplate and not worry about it. To do that, update the relevant Gulp tasks and the Travis build.
If you'd like to set up Code Climate for your project, follow the steps here.
This boilerplate uses ESLint to lint your source. To
change the rules, edit the .eslintrc
files in the root directory, respectively.
Given that your unit tests typically follow different rules from your library
code, it makes sense to lint them against a separate ESLint configuration. For
this reason, a separate, unit-test specific .eslintrc
can be found in the
test
directory.
**What Babel features are supported?**
Nearly all Babel features should be supported by this boilerplate.
If you're using certain experimental features, like class properties, async-await, types, or decorators, then you'll need to install babel-eslint to use as the parser for ESLint.
If you're still getting an error, follow these steps:
- Double check to make sure that you're not typoing the new syntax ;)
- Determine what task is failing (for instance, is it ESLint?)
- Check that project's issue tracker to see if it is a known issue
- If it isn't, then open an issue here
Because of the fact that dependencies of this boilerplate, such as ESLint, are maintained by a team separate from Babel, there may be a delay between when a new feature is added to Babel and when those other libraries add support for it.
**When should I consider using this boilerplate?**
This library is ideal for libraries that export a single file.
**When might I not want to use this boilerplate?**
You can always use this boilerplate as inspiration, but it works best for smaller libraries. If you're building a full-scale webapp, you will likely need to make more changes to the build system. This is because the boilerplate only deals with JavaScript; common build tasks like CSS preprocessing, image minification, or HTML template building are intentionally omitted from this boilerplate.
There are so many different preferences and needs when it comes to building a webapp, it wouldn't make sense to pick any one configuration for this boilerplate.
In the broader scheme of things, there's been discussion in the JavaScript community over whether or not boilerplates are good, or if they are bad. There's no denying that you might could yourself lost is you pick this up without much experience with the tools used in this project. But it could also save you a lot of time if you're simply trying to get a build system set up and running.
Even if you don't intend to use this boilerplate, I believe that boilerplates are useful as an example and as a source of inspiration. I encourage you to look through the current state of the project, and through its history, to see different ways to use Babel with various tools!
**What's the browser compatibility?**
As a rule of thumb, Babel is most reliable in IE9 and above.
**Are there examples?**
Quite a few. Check them out on the wiki.
**Is there a version for Node-only projects?**
There is not a maintained version for Node-only projects. As of Node v6, many of the most commonly used ES2015 features are now supported natively in Node. I strongly recommend that you weigh the pros and cons of adding a transpiling step to your server-side code!
**What's the cost of transpiling?**
A thorough analysis of this question can be found here.
**How can I use this with React?**
Do you wish to use JSX? If the answer is no, then there is nothing that you need
to do. If the answer is yes, then you need to install the babel-preset-react
,
and add it to your .babelrc file.
An example .babelrc file with this preset configured can be seen here.
**How can I export my library without the "default" property?**
As stated here, https://github.com/59naga/babel-plugin-add-module-exports:
Babel@6 doesn't export default module.exports any more So just
npm install babel-plugin-add-module-exports --save-dev
and then add it to your .babelrc file:
{
"presets": ["latest"],
"plugins": [
"add-module-exports",
"transform-es2015-modules-umd"
]
}
The tests run in Node, which has neither a window
nor the DOM. To access the
DOM, you'll need to do a bit of configuration. The quickest solution
would be to add JSDom. The test setup file
has a comment
on the easiest way to get JSDom up-and-running (it takes all of 10 seconds).
Alternatively, you could set up PhantomJS to run the tests in a headless webkit environment, or set up Karma to run the tests in real browsers.
This boilerplate is, to a degree, customizable. To make changes, find what you're looking to do below and follow the instructions.
The primary source file for the library is src/index.js
. Only the files that this
file imports will be included in the final build. To change the name of this entry file:
- Rename the file
- Update the value of
entryFileName
inpackage.json
underbabelBoilerplateOptions
- Update
main
inpackage.json
MyLibrary
is the name of the variable exported from this boilerplate. You can change this by following
these steps:
- Ensure that the variable you're exporting exists in your scripts
- Update the value of
exportVarName
inpackage.json
underbabelBoilerplateOptions
- Check that the unit tests have been updated to reference the new value
When prompted for the name of the library's main variable, leave the response empty.
Install the module and use it in your scripts like usual. Then, go into the Gulpfile and
add the externals
to the
Webpack build options.
If you want to access the module itself in your unit test files, you will need to set up the test environment to support the module. To do this:
- Load the module in the test setup file.
- Add any imported variables to globals object in the test globals JSON.