chensenlai 10988628a0 语音房项目初始化 | 5 lat temu | |
---|---|---|
.. | ||
lib | 5 lat temu | |
.npmignore | 5 lat temu | |
README.md | 5 lat temu | |
package.json | 5 lat temu |
Externalise references to helpers and builtins, automatically polyfilling your code without polluting globals.
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 runtime transformer 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 technical details section for more information on how this works and the types of transformations that occur.
$ npm install babel-plugin-transform-runtime
It is also recommended you install the babel-runtime
package as a
runtime dependency, if you haven't already, as the transformed code will
require that package. See the examples below for more details.
.babelrc
(Recommended)Add the following line to your .babelrc
file:
// without options
{
"plugins": ["transform-runtime"]
}
// with options
{
"plugins": [
["transform-runtime", {
"helpers": false, // defaults to true
"polyfill": false, // defaults to true
"regenerator": true // defaults to true
}]
]
}
$ babel --plugins transform-runtime script.js
require("babel-core").transform("code", {
plugins: ["transform-runtime"]
});
The runtime
transformer plugin does three things:
babel-runtime/regenerator
when you use generators/async functions.babel-runtime/core-js
and maps ES6 static methods and built-ins.babel-runtime/helpers
instead.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.
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$(_context) {
while (1) switch (_context.prev = _context.next) {
case 0:
case "end":
return _context.stop();
}
}, _marked[0], this);
}
This isn't ideal as then you have to include the regenerator runtime which pollutes the global scope.
Instead what the runtime
transformer does it compile that to:
"use strict";
var _regenerator = require("babel-runtime/regenerator");
var _regenerator2 = _interopRequireDefault(_regenerator);
function _interopRequireDefault(obj) { return obj && obj.__esModule ? obj : { default: obj }; }
var _marked = [foo].map(_regenerator2.default.mark);
function foo() {
return regeneratorRuntime.wrap(function foo$(_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
aliasingSometimes 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.
What the runtime
transformer does is transform the following:
var sym = Symbol();
var promise = new Promise;
console.log(arr[Symbol.iterator]());
into the following:
"use strict";
var _getIterator2 = require("babel-runtime/core-js/get-iterator");
var _getIterator3 = _interopRequireDefault(_getIterator2);
var _promise = require("babel-runtime/core-js/promise");
var _promise2 = _interopRequireDefault(_promise);
var _symbol = require("babel-runtime/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.
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);
};