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- @babel/cli
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- @babel/plugin-transform-runtime
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- @babel/parser
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- @babel/helpers
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@babel/plugin-transform-runtime
A plugin that enables the re-use of Babel's injected helper code to save on codesize.
NOTE: Instance methods such as
"foobar".includes("foo")
will not work since that would require modification of existing built-ins (you can use@babel/polyfill
for that).
Installation
Install it as development dependency.
npm install --save-dev @babel/plugin-transform-runtime
and @babel/runtime
as a production dependency (since it's for the "runtime").
npm install --save @babel/runtime
The transformation plugin is typically used only in development, but the runtime itself will be depended on by your deployed code. See the examples below for more details.
Why?
Babel uses very small helpers for common functions such as _extend
. By default this will be added to every file that requires it. This duplication is sometimes unnecessary, especially when your application is spread out over multiple files.
This is where the @babel/plugin-transform-runtime
plugin comes in: all of the helpers will reference the module @babel/runtime
to avoid duplication across your compiled output. The runtime will be compiled into your build.
Another purpose of this transformer is to create a sandboxed environment for your code. If you use @babel/polyfill and the built-ins it provides such as Promise
, Set
and Map
, those will pollute the global scope. While this might be ok for an app or a command line tool, it becomes a problem if your code is a library which you intend to publish for others to use or if you can't exactly control the environment in which your code will run.
The transformer will alias these built-ins to core-js
so you can use them seamlessly without having to require the polyfill.
See the Usage
Via .babelrc
(Recommended)
Add the following line to your .babelrc
file:
Without options:
{
"plugins": ["@babel/plugin-transform-runtime"]
}
With options (and their defaults):
{
"plugins": [
[
"@babel/plugin-transform-runtime",
{
"absoluteRuntime": false,
"corejs": false,
"helpers": true,
"regenerator": true,
"useESModules": false
}
]
]
}
The plugin defaults to assuming that all polyfillable APIs will be provided by the user. Otherwise the Via CLI
babel --plugins @babel/plugin-transform-runtime script.js
Via Node API
require("@babel/core").transform("code", {
plugins: ["@babel/plugin-transform-runtime"],
});
Options
corejs
boolean
or number
, defaults to false
.
e.g. ['@babel/plugin-transform-runtime', { corejs: 2 }],
Specifying a number will rewrite the helpers that need polyfillable APIs to reference core-js
instead.
This requires changing the dependency used to be @babel/runtime-corejs2
instead of @babel/runtime
.
npm install --save @babel/runtime-corejs2
helpers
boolean
, defaults to true
.
Toggles whether or not inlined Babel helpers (classCallCheck
, extends
, etc.) are replaced with calls to moduleName
.
For more information, see polyfill
This option was removed in v7 by just making it the default.
regenerator
boolean
, defaults to true
.
Toggles whether or not generator functions are transformed to use a regenerator runtime that does not pollute the global scope.
For more information, see useBuiltIns
This option was removed in v7 by just making it the default.
useESModules
boolean
, defaults to false
.
When enabled, the transform will use helpers that do not get run through @babel/plugin-transform-modules-commonjs
. This allows for smaller builds in module systems like webpack, since it doesn't need to preserve commonjs semantics.
For example, here is the classCallCheck
helper with useESModules
disabled:
exports.__esModule = true;
exports.default = function(instance, Constructor) {
if (!(instance instanceof Constructor)) {
throw new TypeError("Cannot call a class as a function");
}
};
And, with it enabled:
export default function(instance, Constructor) {
if (!(instance instanceof Constructor)) {
throw new TypeError("Cannot call a class as a function");
}
}
absoluteRuntime
boolean
or string
, defaults to false
.
This allows users to run transform-runtime
broadly across a whole project. By default, transform-runtime
imports from @babel/runtime/foo
directly, but that only works if @babel/runtime
is in the node_modules
of the file that is being compiled. This can be problematic for nested node_modules
, npm-linked modules, or CLIs that reside outside the user's project, among other cases. To avoid worrying about how the runtime module's location is resolved, this allows users to resolve the runtime once up front, and then insert absolute paths to the runtime into the output code.
Using absolute paths is not desirable if files are compiled for use at a later time, but in contexts where a file is compiled and then immediately consumed, they can be quite helpful.
Technical details
The transform-runtime
transformer plugin does three things:
- Automatically requires
@babel/runtime/regenerator
when you use generators/async functions (toggleable with theregenerator
option). - Can use
core-js
for helpers if necessary instead of assuming it will be polyfilled by the user (toggleable with thecorejs
option) - Automatically removes the inline Babel helpers and uses the module
@babel/runtime/helpers
instead (toggleable with thehelpers
option).
What does this actually mean though? Basically, you can use built-ins such as Promise
, Set
, Symbol
, etc., as well use all the Babel features that require a polyfill seamlessly, without global pollution, making it extremely suitable for libraries.
Make sure you include @babel/runtime
as a dependency.
Regenerator aliasing
Whenever you use a generator function or async function:
function* foo() {}
the following is generated:
"use strict";
var _marked = [foo].map(regeneratorRuntime.mark);
function foo() {
return regeneratorRuntime.wrap(
function foo$(_context) {
while (1) {
switch ((_context.prev = _context.next)) {
case 0:
case "end":
return _context.stop();
}
}
},
_marked[0],
this
);
}
This isn't ideal since it relies on the regenerator runtime being included, which pollutes the global scope.
With the runtime
transformer, however, it is compiled to:
"use strict";
var _regenerator = require("@babel/runtime/regenerator");
var _regenerator2 = _interopRequireDefault(_regenerator);
function _interopRequireDefault(obj) {
return obj && obj.__esModule ? obj : { default: obj };
}
var _marked = [foo].map(_regenerator2.default.mark);
function foo() {
return _regenerator2.default.wrap(
function foo$(_context) {
while (1) {
switch ((_context.prev = _context.next)) {
case 0:
case "end":
return _context.stop();
}
}
},
_marked[0],
this
);
}
This means that you can use the regenerator runtime without polluting your current environment.
core-js
aliasing
Sometimes you may want to use new built-ins such as Map
, Set
, Promise
etc. Your only way to use these is usually to include a globally polluting polyfill.
This is with the corejs
option.
The plugin transforms the following:
var sym = Symbol();
var promise = new Promise();
console.log(arr[Symbol.iterator]());
into the following:
"use strict";
var _getIterator2 = require("@babel/runtime-corejs2/core-js/get-iterator");
var _getIterator3 = _interopRequireDefault(_getIterator2);
var _promise = require("@babel/runtime-corejs2/core-js/promise");
var _promise2 = _interopRequireDefault(_promise);
var _symbol = require("@babel/runtime-corejs2/core-js/symbol");
var _symbol2 = _interopRequireDefault(_symbol);
function _interopRequireDefault(obj) {
return obj && obj.__esModule ? obj : { default: obj };
}
var sym = (0, _symbol2.default)();
var promise = new _promise2.default();
console.log((0, _getIterator3.default)(arr));
This means is that you can seamlessly use these native built-ins and static methods without worrying about where they come from.
NOTE: Instance methods such as "foobar".includes("foo")
will not work.
Helper aliasing
Usually Babel will place helpers at the top of your file to do common tasks to avoid duplicating the code around in the current file. Sometimes these helpers can get a little bulky and add unnecessary duplication across files. The runtime
transformer replaces all the helper calls to a module.
That means that the following code:
class Person {}
usually turns into:
"use strict";
function _classCallCheck(instance, Constructor) {
if (!(instance instanceof Constructor)) {
throw new TypeError("Cannot call a class as a function");
}
}
var Person = function Person() {
_classCallCheck(this, Person);
};
the runtime
transformer however turns this into:
"use strict";
var _classCallCheck2 = require("@babel/runtime/helpers/classCallCheck");
var _classCallCheck3 = _interopRequireDefault(_classCallCheck2);
function _interopRequireDefault(obj) {
return obj && obj.__esModule ? obj : { default: obj };
}
var Person = function Person() {
(0, _classCallCheck3.default)(this, Person);
};
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