donghanyang
/
Dbqb_Study
2
0
Fork 0
Code Issues Pull Requests Projects Releases Wiki Activity
提交学习笔记专用
You can not select more than 25 topics Topics must start with a letter or number, can include dashes ('-') and can be up to 35 characters long.
125 Commits
8 Branches
0 Tags
172 MiB
Tree: 05ff3a914e
Branches Tags
${ item.name }
Create tag ${ searchTerm }
Create branch ${ searchTerm }
from '05ff3a914e'
${ noResults }
Dbqb_Study/吴光慧学习笔记/11.1/study/node_modules/regenerate/README.md

338 lines
12 KiB
Raw Normal View History

吴光慧11.1学习笔记
3 weeks ago
  1. # Regenerate [![Build status](https://travis-ci.org/mathiasbynens/regenerate.svg?branch=master)](https://travis-ci.org/mathiasbynens/regenerate) [![Code coverage status](https://img.shields.io/codecov/c/github/mathiasbynens/regenerate.svg)](https://codecov.io/gh/mathiasbynens/regenerate)
  3. _Regenerate_ is a Unicode-aware regex generator for JavaScript. It allows you to easily generate ES5-compatible regular expressions based on a given set of Unicode symbols or code points. (This is trickier than you might think, because of [how JavaScript deals with astral symbols](https://mathiasbynens.be/notes/javascript-unicode).)
  5. ## Installation
  7. Via [npm](https://npmjs.org/):
  9. ```bash
  10. npm install regenerate
  11. ```
  13. Via [Bower](http://bower.io/):
  15. ```bash
  16. bower install regenerate
  17. ```
  19. In a browser:
  21. ```html
  22. <script src="regenerate.js"></script>
  23. ```
  25. In [Node.js](https://nodejs.org/), [io.js](https://iojs.org/), and [RingoJS ≥ v0.8.0](http://ringojs.org/):
  27. ```js
  28. var regenerate = require('regenerate');
  29. ```
  31. In [Narwhal](http://narwhaljs.org/) and [RingoJS ≤ v0.7.0](http://ringojs.org/):
  33. ```js
  34. var regenerate = require('regenerate').regenerate;
  35. ```
  37. In [Rhino](http://www.mozilla.org/rhino/):
  39. ```js
  40. load('regenerate.js');
  41. ```
  43. Using an AMD loader like [RequireJS](http://requirejs.org/):
  45. ```js
  46. require(
  47. {
  48. 'paths': {
  49. 'regenerate': 'path/to/regenerate'
  50. }
  51. },
  52. ['regenerate'],
  53. function(regenerate) {
  54. console.log(regenerate);
  55. }
  56. );
  57. ```
  59. ## API
  61. ### `regenerate(value1, value2, value3, ...)`
  63. The main Regenerate function. Calling this function creates a new set that gets a chainable API.
  65. ```js
  66. var set = regenerate()
  67. .addRange(0x60, 0x69) // add U+0060 to U+0069
  68. .remove(0x62, 0x64) // remove U+0062 and U+0064
  69. .add(0x1D306); // add U+1D306
  70. set.valueOf();
  71. // → [0x60, 0x61, 0x63, 0x65, 0x66, 0x67, 0x68, 0x69, 0x1D306]
  72. set.toString();
  73. // → '[`ace-i]|\\uD834\\uDF06'
  74. set.toRegExp();
  75. // → /[`ace-i]|\uD834\uDF06/
  76. ```
  78. Any arguments passed to `regenerate()` will be added to the set right away. Both code points (numbers) and symbols (strings consisting of a single Unicode symbol) are accepted, as well as arrays containing values of these types.
  80. ```js
  81. regenerate(0x1D306, 'A', '©', 0x2603).toString();
  82. // → '[A\\xA9\\u2603]|\\uD834\\uDF06'
  84. var items = [0x1D306, 'A', '©', 0x2603];
  85. regenerate(items).toString();
  86. // → '[A\\xA9\\u2603]|\\uD834\\uDF06'
  87. ```
  89. ### `regenerate.prototype.add(value1, value2, value3, ...)`
  91. Any arguments passed to `add()` are added to the set. Both code points (numbers) and symbols (strings consisting of a single Unicode symbol) are accepted, as well as arrays containing values of these types.
  93. ```js
  94. regenerate().add(0x1D306, 'A', '©', 0x2603).toString();
  95. // → '[A\\xA9\\u2603]|\\uD834\\uDF06'
  97. var items = [0x1D306, 'A', '©', 0x2603];
  98. regenerate().add(items).toString();
  99. // → '[A\\xA9\\u2603]|\\uD834\\uDF06'
  100. ```
  102. It’s also possible to pass in a Regenerate instance. Doing so adds all code points in that instance to the current set.
  104. ```js
  105. var set = regenerate(0x1D306, 'A');
  106. regenerate().add('©', 0x2603).add(set).toString();
  107. // → '[A\\xA9\\u2603]|\\uD834\\uDF06'
  108. ```
  110. Note that the initial call to `regenerate()` acts like `add()`. This allows you to create a new Regenerate instance and add some code points to it in one go:
  112. ```js
  113. regenerate(0x1D306, 'A', '©', 0x2603).toString();
  114. // → '[A\\xA9\\u2603]|\\uD834\\uDF06'
  115. ```
  117. ### `regenerate.prototype.remove(value1, value2, value3, ...)`
  119. Any arguments passed to `remove()` are removed from the set. Both code points (numbers) and symbols (strings consisting of a single Unicode symbol) are accepted, as well as arrays containing values of these types.
  121. ```js
  122. regenerate(0x1D306, 'A', '©', 0x2603).remove('☃').toString();
  123. // → '[A\\xA9]|\\uD834\\uDF06'
  124. ```
  126. It’s also possible to pass in a Regenerate instance. Doing so removes all code points in that instance from the current set.
  128. ```js
  129. var set = regenerate('☃');
  130. regenerate(0x1D306, 'A', '©', 0x2603).remove(set).toString();
  131. // → '[A\\xA9]|\\uD834\\uDF06'
  132. ```
  134. ### `regenerate.prototype.addRange(start, end)`
  136. Adds a range of code points from `start` to `end` (inclusive) to the set. Both code points (numbers) and symbols (strings consisting of a single Unicode symbol) are accepted.
  138. ```js
  139. regenerate(0x1D306).addRange(0x00, 0xFF).toString(16);
  140. // → '[\\0-\\xFF]|\\uD834\\uDF06'
  142. regenerate().addRange('A', 'z').toString();
  143. // → '[A-z]'
  144. ```
  146. ### `regenerate.prototype.removeRange(start, end)`
  148. Removes a range of code points from `start` to `end` (inclusive) from the set. Both code points (numbers) and symbols (strings consisting of a single Unicode symbol) are accepted.
  150. ```js
  151. regenerate()
  152. .addRange(0x000000, 0x10FFFF) // add all Unicode code points
  153. .removeRange('A', 'z') // remove all symbols from `A` to `z`
  154. .toString();
  155. // → '[\\0-@\\{-\\uD7FF\\uE000-\\uFFFF]|[\\uD800-\\uDBFF][\\uDC00-\\uDFFF]|[\\uD800-\\uDBFF](?![\\uDC00-\\uDFFF])|(?:[^\\uD800-\\uDBFF]|^)[\\uDC00-\\uDFFF]'
  157. regenerate()
  158. .addRange(0x000000, 0x10FFFF) // add all Unicode code points
  159. .removeRange(0x0041, 0x007A) // remove all code points from U+0041 to U+007A
  160. .toString();
  161. // → '[\\0-@\\{-\\uD7FF\\uE000-\\uFFFF]|[\\uD800-\\uDBFF][\\uDC00-\\uDFFF]|[\\uD800-\\uDBFF](?![\\uDC00-\\uDFFF])|(?:[^\\uD800-\\uDBFF]|^)[\\uDC00-\\uDFFF]'
  162. ```
  164. ### `regenerate.prototype.intersection(codePoints)`
  166. Removes any code points from the set that are not present in both the set and the given `codePoints` array. `codePoints` must be an array of numeric code point values, i.e. numbers.
  168. ```js
  169. regenerate()
  170. .addRange(0x00, 0xFF) // add extended ASCII code points
  171. .intersection([0x61, 0x69]) // remove all code points from the set except for these
  172. .toString();
  173. // → '[ai]'
  174. ```
  176. Instead of the `codePoints` array, it’s also possible to pass in a Regenerate instance.
  178. ```js
  179. var whitelist = regenerate(0x61, 0x69);
  181. regenerate()
  182. .addRange(0x00, 0xFF) // add extended ASCII code points
  183. .intersection(whitelist) // remove all code points from the set except for those in the `whitelist` set
  184. .toString();
  185. // → '[ai]'
  186. ```
  188. ### `regenerate.prototype.contains(value)`
  190. Returns `true` if the given value is part of the set, and `false` otherwise. Both code points (numbers) and symbols (strings consisting of a single Unicode symbol) are accepted.
  192. ```js
  193. var set = regenerate().addRange(0x00, 0xFF);
  194. set.contains('A');
  195. // → true
  196. set.contains(0x1D306);
  197. // → false
  198. ```
  200. ### `regenerate.prototype.clone()`
  202. Returns a clone of the current code point set. Any actions performed on the clone won’t mutate the original set.
  204. ```js
  205. var setA = regenerate(0x1D306);
  206. var setB = setA.clone().add(0x1F4A9);
  207. setA.toArray();
  208. // → [0x1D306]
  209. setB.toArray();
  210. // → [0x1D306, 0x1F4A9]
  211. ```
  213. ### `regenerate.prototype.toString(options)`
  215. Returns a string representing (part of) a regular expression that matches all the symbols mapped to the code points within the set.
  217. ```js
  218. regenerate(0x1D306, 0x1F4A9).toString();
  219. // → '\\uD834\\uDF06|\\uD83D\\uDCA9'
  220. ```
  222. If the `bmpOnly` property of the optional `options` object is set to `true`, the output matches surrogates individually, regardless of whether they’re lone surrogates or just part of a surrogate pair. This simplifies the output, but it can only be used in case you’re certain the strings it will be used on don’t contain any astral symbols.
  224. ```js
  225. var highSurrogates = regenerate().addRange(0xD800, 0xDBFF);
  226. highSurrogates.toString();
  227. // → '[\\uD800-\\uDBFF](?![\\uDC00-\\uDFFF])'
  228. highSurrogates.toString({ 'bmpOnly': true });
  229. // → '[\\uD800-\\uDBFF]'
  231. var lowSurrogates = regenerate().addRange(0xDC00, 0xDFFF);
  232. lowSurrogates.toString();
  233. // → '(?:[^\\uD800-\\uDBFF]|^)[\\uDC00-\\uDFFF]'
  234. lowSurrogates.toString({ 'bmpOnly': true });
  235. // → '[\\uDC00-\\uDFFF]'
  236. ```
  238. Note that lone low surrogates cannot be matched accurately using regular expressions in JavaScript without the use of [lookbehind assertions](https://mathiasbynens.be/notes/es-regexp-proposals#lookbehinds), which aren't yet widely supported. Regenerate’s output makes a best-effort approach but [there can be false negatives in this regard](https://github.com/mathiasbynens/regenerate/issues/28#issuecomment-72224808).
  240. If the `hasUnicodeFlag` property of the optional `options` object is set to `true`, the output makes use of Unicode code point escapes (`\u{…}`) where applicable. This simplifies the output at the cost of compatibility and portability, since it means the output can only be used as a pattern in a regular expression with [the ES6 `u` flag](https://mathiasbynens.be/notes/es6-unicode-regex) enabled.
  242. ```js
  243. var set = regenerate().addRange(0x0, 0x10FFFF);
  245. set.toString();
  246. // → '[\\0-\\uD7FF\\uE000-\\uFFFF]|[\\uD800-\\uDBFF][\\uDC00-\\uDFFF]|[\\uD800-\\uDBFF](?![\\uDC00-\\uDFFF])|(?:[^\\uD800-\\uDBFF]|^)[\\uDC00-\\uDFFF]''
  248. set.toString({ 'hasUnicodeFlag': true });
  249. // → '[\\0-\\u{10FFFF}]'
  250. ```
  252. ### `regenerate.prototype.toRegExp(flags = '')`
  254. Returns a regular expression that matches all the symbols mapped to the code points within the set. Optionally, you can pass [flags](https://developer.mozilla.org/en-US/docs/Web/JavaScript/Reference/Global_Objects/RegExp#Parameters) to be added to the regular expression.
  256. ```js
  257. var regex = regenerate(0x1D306, 0x1F4A9).toRegExp();
  258. // → /\uD834\uDF06|\uD83D\uDCA9/
  259. regex.test('𝌆');
  260. // → true
  261. regex.test('A');
  262. // → false
  264. // With flags:
  265. var regex = regenerate(0x1D306, 0x1F4A9).toRegExp('g');
  266. // → /\uD834\uDF06|\uD83D\uDCA9/g
  267. ```
  269. **Note:** This probably shouldn’t be used. Regenerate is intended as a tool that is used as part of a build process, not at runtime.
  271. ### `regenerate.prototype.valueOf()` or `regenerate.prototype.toArray()`
  273. Returns a sorted array of unique code points in the set.
  275. ```js
  276. regenerate(0x1D306)
  277. .addRange(0x60, 0x65)
  278. .add(0x59, 0x60) // note: 0x59 is added after 0x65, and 0x60 is a duplicate
  279. .valueOf();
  280. // → [0x59, 0x60, 0x61, 0x62, 0x63, 0x64, 0x65, 0x1D306]
  281. ```
  283. ### `regenerate.version`
  285. A string representing the semantic version number.
  287. ## Combine Regenerate with other libraries
  289. Regenerate gets even better when combined with other libraries such as [Punycode.js](https://mths.be/punycode). Here’s an example where [Punycode.js](https://mths.be/punycode) is used to convert a string into an array of code points, that is then passed on to Regenerate:
  291. ```js
  292. var regenerate = require('regenerate');
  293. var punycode = require('punycode');
  295. var string = 'Lorem ipsum dolor sit amet.';
  296. // Get an array of all code points used in the string:
  297. var codePoints = punycode.ucs2.decode(string);
  299. // Generate a regular expression that matches any of the symbols used in the string:
  300. regenerate(codePoints).toString();
  301. // → '[ \\.Ladeilmopr-u]'
  302. ```
  304. In ES6 you can do something similar with [`Array.from`](https://mths.be/array-from) which uses [the string’s iterator](https://mathiasbynens.be/notes/javascript-unicode#iterating-over-symbols) to split the given string into an array of strings that each contain a single symbol. [`regenerate()`](#regenerateprototypeaddvalue1-value2-value3-) accepts both strings and code points, remember?
  306. ```js
  307. var regenerate = require('regenerate');
  309. var string = 'Lorem ipsum dolor sit amet.';
  310. // Get an array of all symbols used in the string:
  311. var symbols = Array.from(string);
  313. // Generate a regular expression that matches any of the symbols used in the string:
  314. regenerate(symbols).toString();
  315. // → '[ \\.Ladeilmopr-u]'
  316. ```
  318. ## Support
  320. Regenerate supports at least Chrome 27+, Firefox 3+, Safari 4+, Opera 10+, IE 6+, Node.js v0.10.0+, io.js v1.0.0+, Narwhal 0.3.2+, RingoJS 0.8+, PhantomJS 1.9.0+, and Rhino 1.7RC4+.
  322. ## Unit tests & code coverage
  324. After cloning this repository, run `npm install` to install the dependencies needed for Regenerate development and testing. You may want to install Istanbul _globally_ using `npm install istanbul -g`.
  326. Once that’s done, you can run the unit tests in Node using `npm test` or `node tests/tests.js`. To run the tests in Rhino, Ringo, Narwhal, and web browsers as well, use `grunt test`.
  328. To generate the code coverage report, use `grunt cover`.
  330. ## Author
  332. | [![twitter/mathias](https://gravatar.com/avatar/24e08a9ea84deb17ae121074d0f17125?s=70)](https://twitter.com/mathias "Follow @mathias on Twitter") |
  333. |---|
  334. | [Mathias Bynens](https://mathiasbynens.be/) |
  336. ## License
  338. Regenerate is available under the [MIT](https://mths.be/mit) license.