pax_global_header00006660000000000000000000000064131577526100014521gustar00rootroot0000000000000052 comment=d34ae9be511306a872b742d8421ae18c4ffdc0bf regenerate-1.3.3/000077500000000000000000000000001315775261000136465ustar00rootroot00000000000000regenerate-1.3.3/.editorconfig000066400000000000000000000003161315775261000163230ustar00rootroot00000000000000root = true [*] charset = utf-8 indent_style = tab end_of_line = lf insert_final_newline = true trim_trailing_whitespace = true [{README.md,package.json,.travis.yml}] indent_style = space indent_size = 2 regenerate-1.3.3/.gitattributes000066400000000000000000000001141315775261000165350ustar00rootroot00000000000000# Automatically normalize line endings for all text-based files * text=auto regenerate-1.3.3/.gitignore000066400000000000000000000003471315775261000156420ustar00rootroot00000000000000# Coverage report coverage # Installed npm modules node_modules # Folder view configuration files .DS_Store Desktop.ini # Thumbnail cache files ._* Thumbs.db # Files that might appear on external disks .Spotlight-V100 .Trashes regenerate-1.3.3/.npmignore000066400000000000000000000000761315775261000156500ustar00rootroot00000000000000.* *.md coverage tests bower.json component.json Gruntfile.js regenerate-1.3.3/.travis.yml000066400000000000000000000030631315775261000157610ustar00rootroot00000000000000language: node_js node_js: - "0.10" - "0.12" - "4" - "5" - "6" before_script: - "npm install -g grunt-cli" # Narwhal uses a hardcoded path to openjdk v6, so use that version - "sudo apt-get update -qq" - "sudo apt-get install -qq openjdk-6-jre" - "PACKAGE=rhino1_7R5; wget https://github.com/mozilla/rhino/releases/download/Rhino1_7R5_RELEASE/$PACKAGE.zip && sudo unzip $PACKAGE -d /opt/ && rm $PACKAGE.zip" - "PACKAGE=rhino1_7R5; echo -e '#!/bin/sh\\njava -jar /opt/'$PACKAGE'/js.jar $@' | sudo tee /usr/local/bin/rhino && sudo chmod +x /usr/local/bin/rhino" - "PACKAGE=ringojs-0.11; wget https://github.com/ringo/ringojs/releases/download/v0.11.0/$PACKAGE.zip && sudo unzip $PACKAGE -d /opt/ && rm $PACKAGE.zip" - "PACKAGE=ringojs-0.11; sudo ln -s /opt/$PACKAGE/bin/ringo /usr/local/bin/ringo && sudo chmod +x /usr/local/bin/ringo" - "PACKAGE=v0.3.2; wget https://github.com/280north/narwhal/archive/$PACKAGE.zip && sudo unzip $PACKAGE -d /opt/ && rm $PACKAGE.zip" - "PACKAGE=narwhal-0.3.2; sudo ln -s /opt/$PACKAGE/bin/narwhal /usr/local/bin/narwhal && sudo chmod +x /usr/local/bin/narwhal" # If the enviroment stores rt.jar in a different directory, find it and symlink the directory - "PREFIX=/usr/lib/jvm; if [ ! -d $PREFIX/java-6-openjdk ]; then for d in $PREFIX/java-6-openjdk-*; do if [ -e $d/jre/lib/rt.jar ]; then sudo ln -s $d $PREFIX/java-6-openjdk; break; fi; done; fi" script: - 'grunt ci' after_script: - 'if [ "${TRAVIS_NODE_VERSION}" = "6" ]; then istanbul cover --verbose --dir coverage tests/tests.js && codecov; fi' regenerate-1.3.3/Gruntfile.js000066400000000000000000000022231315775261000161420ustar00rootroot00000000000000module.exports = function(grunt) { grunt.initConfig({ 'shell': { 'options': { 'stdout': true, 'stderr': true, 'failOnError': true }, 'test-narwhal': { 'command': 'echo "Testing in Narwhal..."; export NARWHAL_OPTIMIZATION=-1; narwhal "tests/tests.js"' }, 'test-phantomjs': { 'command': 'echo "Testing in PhantomJS..."; phantomjs "tests/tests.js"' }, 'test-rhino': { 'command': 'echo "Testing in Rhino..."; rhino -opt -1 "tests.js"', 'options': { 'execOptions': { 'cwd': 'tests' } } }, 'test-ringo': { 'command': 'echo "Testing in Ringo..."; ringo -o -1 "tests/tests.js"' }, 'test-node': { 'command': 'echo "Testing in Node..."; node "tests/tests.js"' }, 'test-browser': { 'command': 'echo "Testing in a browser..."; open "tests/index.html"' } } }); grunt.loadNpmTasks('grunt-shell'); grunt.registerTask('ci', [ 'shell:test-narwhal', 'shell:test-phantomjs', 'shell:test-rhino', 'shell:test-ringo', 'shell:test-node' ]); grunt.registerTask('test', [ 'ci', 'shell:test-browser' ]); grunt.registerTask('default', [ 'shell:test-node' ]); }; regenerate-1.3.3/LICENSE-MIT.txt000066400000000000000000000020651315775261000161230ustar00rootroot00000000000000Copyright Mathias Bynens Permission is hereby granted, free of charge, to any person obtaining a copy of this software and associated documentation files (the "Software"), to deal in the Software without restriction, including without limitation the rights to use, copy, modify, merge, publish, distribute, sublicense, and/or sell copies of the Software, and to permit persons to whom the Software is furnished to do so, subject to the following conditions: The above copyright notice and this permission notice shall be included in all copies or substantial portions of the Software. THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, EXPRESS OR IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF MERCHANTABILITY, FITNESS FOR A PARTICULAR PURPOSE AND NONINFRINGEMENT. IN NO EVENT SHALL THE AUTHORS OR COPYRIGHT HOLDERS BE LIABLE FOR ANY CLAIM, DAMAGES OR OTHER LIABILITY, WHETHER IN AN ACTION OF CONTRACT, TORT OR OTHERWISE, ARISING FROM, OUT OF OR IN CONNECTION WITH THE SOFTWARE OR THE USE OR OTHER DEALINGS IN THE SOFTWARE. regenerate-1.3.3/README.md000066400000000000000000000304471315775261000151350ustar00rootroot00000000000000# 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) [![Dependency status](https://gemnasium.com/mathiasbynens/regenerate.svg)](https://gemnasium.com/mathiasbynens/regenerate) _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).) ## Installation Via [npm](https://npmjs.org/): ```bash npm install regenerate ``` Via [Bower](http://bower.io/): ```bash bower install regenerate ``` Via [Component](https://github.com/component/component): ```bash component install mathiasbynens/regenerate ``` In a browser: ```html ``` In [Node.js](https://nodejs.org/), [io.js](https://iojs.org/), and [RingoJS ≥ v0.8.0](http://ringojs.org/): ```js var regenerate = require('regenerate'); ``` In [Narwhal](http://narwhaljs.org/) and [RingoJS ≤ v0.7.0](http://ringojs.org/): ```js var regenerate = require('regenerate').regenerate; ``` In [Rhino](http://www.mozilla.org/rhino/): ```js load('regenerate.js'); ``` Using an AMD loader like [RequireJS](http://requirejs.org/): ```js require( { 'paths': { 'regenerate': 'path/to/regenerate' } }, ['regenerate'], function(regenerate) { console.log(regenerate); } ); ``` ## API ### `regenerate(value1, value2, value3, ...)` The main Regenerate function. Calling this function creates a new set that gets a chainable API. ```js var set = regenerate() .addRange(0x60, 0x69) // add U+0060 to U+0069 .remove(0x62, 0x64) // remove U+0062 and U+0064 .add(0x1D306); // add U+1D306 set.valueOf(); // → [0x60, 0x61, 0x63, 0x65, 0x66, 0x67, 0x68, 0x69, 0x1D306] set.toString(); // → '[`ace-i]|\\uD834\\uDF06' set.toRegExp(); // → /[`ace-i]|\uD834\uDF06/ ``` 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. ```js regenerate(0x1D306, 'A', '©', 0x2603).toString(); // → '[A\\xA9\\u2603]|\\uD834\\uDF06' var items = [0x1D306, 'A', '©', 0x2603]; regenerate(items).toString(); // → '[A\\xA9\\u2603]|\\uD834\\uDF06' ``` ### `regenerate.prototype.add(value1, value2, value3, ...)` 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. ```js regenerate().add(0x1D306, 'A', '©', 0x2603).toString(); // → '[A\\xA9\\u2603]|\\uD834\\uDF06' var items = [0x1D306, 'A', '©', 0x2603]; regenerate().add(items).toString(); // → '[A\\xA9\\u2603]|\\uD834\\uDF06' ``` It’s also possible to pass in a Regenerate instance. Doing so adds all code points in that instance to the current set. ```js var set = regenerate(0x1D306, 'A'); regenerate().add('©', 0x2603).add(set).toString(); // → '[A\\xA9\\u2603]|\\uD834\\uDF06' ``` 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: ```js regenerate(0x1D306, 'A', '©', 0x2603).toString(); // → '[A\\xA9\\u2603]|\\uD834\\uDF06' ``` ### `regenerate.prototype.remove(value1, value2, value3, ...)` Any arguments passed to `remove()` are removed 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. ```js regenerate(0x1D306, 'A', '©', 0x2603).remove('☃').toString(); // → '[A\\xA9]|\\uD834\\uDF06' ``` It’s also possible to pass in a Regenerate instance. Doing so removes all code points in that instance from the current set. ```js var set = regenerate('☃'); regenerate(0x1D306, 'A', '©', 0x2603).remove(set).toString(); // → '[A\\xA9]|\\uD834\\uDF06' ``` ### `regenerate.prototype.addRange(start, end)` 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. ```js regenerate(0x1D306).addRange(0x00, 0xFF).toString(16); // → '[\\0-\\xFF]|\\uD834\\uDF06' regenerate().addRange('A', 'z').toString(); // → '[A-z]' ``` ### `regenerate.prototype.removeRange(start, end)` 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. ```js regenerate() .addRange(0x000000, 0x10FFFF) // add all Unicode code points .removeRange('A', 'z') // remove all symbols from `A` to `z` .toString(); // → '[\\0-@\\{-\\uD7FF\\uE000-\\uFFFF]|[\\uD800-\\uDBFF][\\uDC00-\\uDFFF]|[\\uD800-\\uDBFF](?![\\uDC00-\\uDFFF])|(?:[^\\uD800-\\uDBFF]|^)[\\uDC00-\\uDFFF]' regenerate() .addRange(0x000000, 0x10FFFF) // add all Unicode code points .removeRange(0x0041, 0x007A) // remove all code points from U+0041 to U+007A .toString(); // → '[\\0-@\\{-\\uD7FF\\uE000-\\uFFFF]|[\\uD800-\\uDBFF][\\uDC00-\\uDFFF]|[\\uD800-\\uDBFF](?![\\uDC00-\\uDFFF])|(?:[^\\uD800-\\uDBFF]|^)[\\uDC00-\\uDFFF]' ``` ### `regenerate.prototype.intersection(codePoints)` 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. ```js regenerate() .addRange(0x00, 0xFF) // add extended ASCII code points .intersection([0x61, 0x69]) // remove all code points from the set except for these .toString(); // → '[ai]' ``` Instead of the `codePoints` array, it’s also possible to pass in a Regenerate instance. ```js var whitelist = regenerate(0x61, 0x69); regenerate() .addRange(0x00, 0xFF) // add extended ASCII code points .intersection(whitelist) // remove all code points from the set except for those in the `whitelist` set .toString(); // → '[ai]' ``` ### `regenerate.prototype.contains(value)` 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. ```js var set = regenerate().addRange(0x00, 0xFF); set.contains('A'); // → true set.contains(0x1D306); // → false ``` ### `regenerate.prototype.clone()` Returns a clone of the current code point set. Any actions performed on the clone won’t mutate the original set. ```js var setA = regenerate(0x1D306); var setB = setA.clone().add(0x1F4A9); setA.toArray(); // → [0x1D306] setB.toArray(); // → [0x1D306, 0x1F4A9] ``` ### `regenerate.prototype.toString(options)` Returns a string representing (part of) a regular expression that matches all the symbols mapped to the code points within the set. ```js regenerate(0x1D306, 0x1F4A9).toString(); // → '\\uD834\\uDF06|\\uD83D\\uDCA9' ``` 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. ```js var highSurrogates = regenerate().addRange(0xD800, 0xDBFF); highSurrogates.toString(); // → '[\\uD800-\\uDBFF](?![\\uDC00-\\uDFFF])' highSurrogates.toString({ 'bmpOnly': true }); // → '[\\uD800-\\uDBFF]' var lowSurrogates = regenerate().addRange(0xDC00, 0xDFFF); lowSurrogates.toString(); // → '(?:[^\\uD800-\\uDBFF]|^)[\\uDC00-\\uDFFF]' lowSurrogates.toString({ 'bmpOnly': true }); // → '[\\uDC00-\\uDFFF]' ``` Note that lone low surrogates cannot be matched accurately using regular expressions in JavaScript. 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). 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. ```js var set = regenerate().addRange(0x0, 0x10FFFF); set.toString(); // → '[\\0-\\uD7FF\\uE000-\\uFFFF]|[\\uD800-\\uDBFF][\\uDC00-\\uDFFF]|[\\uD800-\\uDBFF](?![\\uDC00-\\uDFFF])|(?:[^\\uD800-\\uDBFF]|^)[\\uDC00-\\uDFFF]'' set.toString({ 'hasUnicodeFlag': true }); // → '[\\0-\\u{10FFFF}]' ``` ### `regenerate.prototype.toRegExp(flags = '')` 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. ```js var regex = regenerate(0x1D306, 0x1F4A9).toRegExp(); // → /\uD834\uDF06|\uD83D\uDCA9/ regex.test('𝌆'); // → true regex.test('A'); // → false // With flags: var regex = regenerate(0x1D306, 0x1F4A9).toRegExp('g'); // → /\uD834\uDF06|\uD83D\uDCA9/g ``` **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. ### `regenerate.prototype.valueOf()` or `regenerate.prototype.toArray()` Returns a sorted array of unique code points in the set. ```js regenerate(0x1D306) .addRange(0x60, 0x65) .add(0x59, 0x60) // note: 0x59 is added after 0x65, and 0x60 is a duplicate .valueOf(); // → [0x59, 0x60, 0x61, 0x62, 0x63, 0x64, 0x65, 0x1D306] ``` ### `regenerate.version` A string representing the semantic version number. ## Combine Regenerate with other libraries 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: ```js var regenerate = require('regenerate'); var punycode = require('punycode'); var string = 'Lorem ipsum dolor sit amet.'; // Get an array of all code points used in the string: var codePoints = punycode.ucs2.decode(string); // Generate a regular expression that matches any of the symbols used in the string: regenerate(codePoints).toString(); // → '[ \\.Ladeilmopr-u]' ``` 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? ```js var regenerate = require('regenerate'); var string = 'Lorem ipsum dolor sit amet.'; // Get an array of all symbols used in the string: var symbols = Array.from(string); // Generate a regular expression that matches any of the symbols used in the string: regenerate(symbols).toString(); // → '[ \\.Ladeilmopr-u]' ``` ## Support 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+. ## Unit tests & code coverage 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`. 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`. To generate the code coverage report, use `grunt cover`. ## Author | [![twitter/mathias](https://gravatar.com/avatar/24e08a9ea84deb17ae121074d0f17125?s=70)](https://twitter.com/mathias "Follow @mathias on Twitter") | |---| | [Mathias Bynens](https://mathiasbynens.be/) | ## License Regenerate is available under the [MIT](https://mths.be/mit) license. regenerate-1.3.3/bower.json000066400000000000000000000003041315775261000156540ustar00rootroot00000000000000{ "name": "regenerate", "version": "1.3.3", "main": "regenerate.js", "ignore": [ "coverage", "tests", ".*", "component.json", "Gruntfile.js", "node_modules", "package.json" ] } regenerate-1.3.3/component.json000066400000000000000000000005501315775261000165430ustar00rootroot00000000000000{ "name": "regenerate", "version": "1.3.3", "description": "Generate JavaScript-compatible regular expressions based on a given set of Unicode symbols or code points.", "repo": "mathiasbynens/regenerate", "license": "MIT", "scripts": [ "regenerate.js" ], "keywords": [ "regex", "regexp", "javascript", "unicode", "generator", "tool" ] } regenerate-1.3.3/package.json000066400000000000000000000017301315775261000161350ustar00rootroot00000000000000{ "name": "regenerate", "version": "1.3.3", "description": "Generate JavaScript-compatible regular expressions based on a given set of Unicode symbols or code points.", "homepage": "https://mths.be/regenerate", "main": "regenerate.js", "keywords": [ "regex", "regexp", "javascript", "unicode", "generator", "tool" ], "license": "MIT", "author": { "name": "Mathias Bynens", "url": "https://mathiasbynens.be/" }, "repository": { "type": "git", "url": "https://github.com/mathiasbynens/regenerate.git" }, "bugs": "https://github.com/mathiasbynens/regenerate/issues", "scripts": { "cover": "istanbul cover --report html --verbose --dir coverage tests/tests.js", "test": "node tests/tests.js" }, "devDependencies": { "codecov": "^1.0.1", "grunt": "^0.4.5", "grunt-shell": "^1.1.1", "istanbul": "^0.4.3", "qunit-extras": "^1.1.0", "qunitjs": "~1.11.0", "requirejs": "^2.1.15" } } regenerate-1.3.3/regenerate.js000066400000000000000000001025701315775261000163320ustar00rootroot00000000000000/*! https://mths.be/regenerate v1.3.3 by @mathias | MIT license */ ;(function(root) { // Detect free variables `exports`. var freeExports = typeof exports == 'object' && exports; // Detect free variable `module`. var freeModule = typeof module == 'object' && module && module.exports == freeExports && module; // Detect free variable `global`, from Node.js/io.js or Browserified code, // and use it as `root`. var freeGlobal = typeof global == 'object' && global; if (freeGlobal.global === freeGlobal || freeGlobal.window === freeGlobal) { root = freeGlobal; } /*--------------------------------------------------------------------------*/ var ERRORS = { 'rangeOrder': 'A range\u2019s `stop` value must be greater than or equal ' + 'to the `start` value.', 'codePointRange': 'Invalid code point value. Code points range from ' + 'U+000000 to U+10FFFF.' }; // https://mathiasbynens.be/notes/javascript-encoding#surrogate-pairs var HIGH_SURROGATE_MIN = 0xD800; var HIGH_SURROGATE_MAX = 0xDBFF; var LOW_SURROGATE_MIN = 0xDC00; var LOW_SURROGATE_MAX = 0xDFFF; // In Regenerate output, `\0` is never preceded by `\` because we sort by // code point value, so let’s keep this regular expression simple. var regexNull = /\\x00([^0123456789]|$)/g; var object = {}; var hasOwnProperty = object.hasOwnProperty; var extend = function(destination, source) { var key; for (key in source) { if (hasOwnProperty.call(source, key)) { destination[key] = source[key]; } } return destination; }; var forEach = function(array, callback) { var index = -1; var length = array.length; while (++index < length) { callback(array[index], index); } }; var toString = object.toString; var isArray = function(value) { return toString.call(value) == '[object Array]'; }; var isNumber = function(value) { return typeof value == 'number' || toString.call(value) == '[object Number]'; }; // This assumes that `number` is a positive integer that `toString()`s nicely // (which is the case for all code point values). var zeroes = '0000'; var pad = function(number, totalCharacters) { var string = String(number); return string.length < totalCharacters ? (zeroes + string).slice(-totalCharacters) : string; }; var hex = function(number) { return Number(number).toString(16).toUpperCase(); }; var slice = [].slice; /*--------------------------------------------------------------------------*/ var dataFromCodePoints = function(codePoints) { var index = -1; var length = codePoints.length; var max = length - 1; var result = []; var isStart = true; var tmp; var previous = 0; while (++index < length) { tmp = codePoints[index]; if (isStart) { result.push(tmp); previous = tmp; isStart = false; } else { if (tmp == previous + 1) { if (index != max) { previous = tmp; continue; } else { isStart = true; result.push(tmp + 1); } } else { // End the previous range and start a new one. result.push(previous + 1, tmp); previous = tmp; } } } if (!isStart) { result.push(tmp + 1); } return result; }; var dataRemove = function(data, codePoint) { // Iterate over the data per `(start, end)` pair. var index = 0; var start; var end; var length = data.length; while (index < length) { start = data[index]; end = data[index + 1]; if (codePoint >= start && codePoint < end) { // Modify this pair. if (codePoint == start) { if (end == start + 1) { // Just remove `start` and `end`. data.splice(index, 2); return data; } else { // Just replace `start` with a new value. data[index] = codePoint + 1; return data; } } else if (codePoint == end - 1) { // Just replace `end` with a new value. data[index + 1] = codePoint; return data; } else { // Replace `[start, end]` with `[startA, endA, startB, endB]`. data.splice(index, 2, start, codePoint, codePoint + 1, end); return data; } } index += 2; } return data; }; var dataRemoveRange = function(data, rangeStart, rangeEnd) { if (rangeEnd < rangeStart) { throw Error(ERRORS.rangeOrder); } // Iterate over the data per `(start, end)` pair. var index = 0; var start; var end; while (index < data.length) { start = data[index]; end = data[index + 1] - 1; // Note: the `- 1` makes `end` inclusive. // Exit as soon as no more matching pairs can be found. if (start > rangeEnd) { return data; } // Check if this range pair is equal to, or forms a subset of, the range // to be removed. // E.g. we have `[0, 11, 40, 51]` and want to remove 0-10 → `[40, 51]`. // E.g. we have `[40, 51]` and want to remove 0-100 → `[]`. if (rangeStart <= start && rangeEnd >= end) { // Remove this pair. data.splice(index, 2); continue; } // Check if both `rangeStart` and `rangeEnd` are within the bounds of // this pair. // E.g. we have `[0, 11]` and want to remove 4-6 → `[0, 4, 7, 11]`. if (rangeStart >= start && rangeEnd < end) { if (rangeStart == start) { // Replace `[start, end]` with `[startB, endB]`. data[index] = rangeEnd + 1; data[index + 1] = end + 1; return data; } // Replace `[start, end]` with `[startA, endA, startB, endB]`. data.splice(index, 2, start, rangeStart, rangeEnd + 1, end + 1); return data; } // Check if only `rangeStart` is within the bounds of this pair. // E.g. we have `[0, 11]` and want to remove 4-20 → `[0, 4]`. if (rangeStart >= start && rangeStart <= end) { // Replace `end` with `rangeStart`. data[index + 1] = rangeStart; // Note: we cannot `return` just yet, in case any following pairs still // contain matching code points. // E.g. we have `[0, 11, 14, 31]` and want to remove 4-20 // → `[0, 4, 21, 31]`. } // Check if only `rangeEnd` is within the bounds of this pair. // E.g. we have `[14, 31]` and want to remove 4-20 → `[21, 31]`. else if (rangeEnd >= start && rangeEnd <= end) { // Just replace `start`. data[index] = rangeEnd + 1; return data; } index += 2; } return data; }; var dataAdd = function(data, codePoint) { // Iterate over the data per `(start, end)` pair. var index = 0; var start; var end; var lastIndex = null; var length = data.length; if (codePoint < 0x0 || codePoint > 0x10FFFF) { throw RangeError(ERRORS.codePointRange); } while (index < length) { start = data[index]; end = data[index + 1]; // Check if the code point is already in the set. if (codePoint >= start && codePoint < end) { return data; } if (codePoint == start - 1) { // Just replace `start` with a new value. data[index] = codePoint; return data; } // At this point, if `start` is `greater` than `codePoint`, insert a new // `[start, end]` pair before the current pair, or after the current pair // if there is a known `lastIndex`. if (start > codePoint) { data.splice( lastIndex != null ? lastIndex + 2 : 0, 0, codePoint, codePoint + 1 ); return data; } if (codePoint == end) { // Check if adding this code point causes two separate ranges to become // a single range, e.g. `dataAdd([0, 4, 5, 10], 4)` → `[0, 10]`. if (codePoint + 1 == data[index + 2]) { data.splice(index, 4, start, data[index + 3]); return data; } // Else, just replace `end` with a new value. data[index + 1] = codePoint + 1; return data; } lastIndex = index; index += 2; } // The loop has finished; add the new pair to the end of the data set. data.push(codePoint, codePoint + 1); return data; }; var dataAddData = function(dataA, dataB) { // Iterate over the data per `(start, end)` pair. var index = 0; var start; var end; var data = dataA.slice(); var length = dataB.length; while (index < length) { start = dataB[index]; end = dataB[index + 1] - 1; if (start == end) { data = dataAdd(data, start); } else { data = dataAddRange(data, start, end); } index += 2; } return data; }; var dataRemoveData = function(dataA, dataB) { // Iterate over the data per `(start, end)` pair. var index = 0; var start; var end; var data = dataA.slice(); var length = dataB.length; while (index < length) { start = dataB[index]; end = dataB[index + 1] - 1; if (start == end) { data = dataRemove(data, start); } else { data = dataRemoveRange(data, start, end); } index += 2; } return data; }; var dataAddRange = function(data, rangeStart, rangeEnd) { if (rangeEnd < rangeStart) { throw Error(ERRORS.rangeOrder); } if ( rangeStart < 0x0 || rangeStart > 0x10FFFF || rangeEnd < 0x0 || rangeEnd > 0x10FFFF ) { throw RangeError(ERRORS.codePointRange); } // Iterate over the data per `(start, end)` pair. var index = 0; var start; var end; var added = false; var length = data.length; while (index < length) { start = data[index]; end = data[index + 1]; if (added) { // The range has already been added to the set; at this point, we just // need to get rid of the following ranges in case they overlap. // Check if this range can be combined with the previous range. if (start == rangeEnd + 1) { data.splice(index - 1, 2); return data; } // Exit as soon as no more possibly overlapping pairs can be found. if (start > rangeEnd) { return data; } // E.g. `[0, 11, 12, 16]` and we’ve added 5-15, so we now have // `[0, 16, 12, 16]`. Remove the `12,16` part, as it lies within the // `0,16` range that was previously added. if (start >= rangeStart && start <= rangeEnd) { // `start` lies within the range that was previously added. if (end > rangeStart && end - 1 <= rangeEnd) { // `end` lies within the range that was previously added as well, // so remove this pair. data.splice(index, 2); index -= 2; // Note: we cannot `return` just yet, as there may still be other // overlapping pairs. } else { // `start` lies within the range that was previously added, but // `end` doesn’t. E.g. `[0, 11, 12, 31]` and we’ve added 5-15, so // now we have `[0, 16, 12, 31]`. This must be written as `[0, 31]`. // Remove the previously added `end` and the current `start`. data.splice(index - 1, 2); index -= 2; } // Note: we cannot return yet. } } else if (start == rangeEnd + 1) { data[index] = rangeStart; return data; } // Check if a new pair must be inserted *before* the current one. else if (start > rangeEnd) { data.splice(index, 0, rangeStart, rangeEnd + 1); return data; } else if (rangeStart >= start && rangeStart < end && rangeEnd + 1 <= end) { // The new range lies entirely within an existing range pair. No action // needed. return data; } else if ( // E.g. `[0, 11]` and you add 5-15 → `[0, 16]`. (rangeStart >= start && rangeStart < end) || // E.g. `[0, 3]` and you add 3-6 → `[0, 7]`. end == rangeStart ) { // Replace `end` with the new value. data[index + 1] = rangeEnd + 1; // Make sure the next range pair doesn’t overlap, e.g. `[0, 11, 12, 14]` // and you add 5-15 → `[0, 16]`, i.e. remove the `12,14` part. added = true; // Note: we cannot `return` just yet. } else if (rangeStart <= start && rangeEnd + 1 >= end) { // The new range is a superset of the old range. data[index] = rangeStart; data[index + 1] = rangeEnd + 1; added = true; } index += 2; } // The loop has finished without doing anything; add the new pair to the end // of the data set. if (!added) { data.push(rangeStart, rangeEnd + 1); } return data; }; var dataContains = function(data, codePoint) { var index = 0; var length = data.length; // Exit early if `codePoint` is not within `data`’s overall range. var start = data[index]; var end = data[length - 1]; if (length >= 2) { if (codePoint < start || codePoint > end) { return false; } } // Iterate over the data per `(start, end)` pair. while (index < length) { start = data[index]; end = data[index + 1]; if (codePoint >= start && codePoint < end) { return true; } index += 2; } return false; }; var dataIntersection = function(data, codePoints) { var index = 0; var length = codePoints.length; var codePoint; var result = []; while (index < length) { codePoint = codePoints[index]; if (dataContains(data, codePoint)) { result.push(codePoint); } ++index; } return dataFromCodePoints(result); }; var dataIsEmpty = function(data) { return !data.length; }; var dataIsSingleton = function(data) { // Check if the set only represents a single code point. return data.length == 2 && data[0] + 1 == data[1]; }; var dataToArray = function(data) { // Iterate over the data per `(start, end)` pair. var index = 0; var start; var end; var result = []; var length = data.length; while (index < length) { start = data[index]; end = data[index + 1]; while (start < end) { result.push(start); ++start; } index += 2; } return result; }; /*--------------------------------------------------------------------------*/ // https://mathiasbynens.be/notes/javascript-encoding#surrogate-formulae var floor = Math.floor; var highSurrogate = function(codePoint) { return parseInt( floor((codePoint - 0x10000) / 0x400) + HIGH_SURROGATE_MIN, 10 ); }; var lowSurrogate = function(codePoint) { return parseInt( (codePoint - 0x10000) % 0x400 + LOW_SURROGATE_MIN, 10 ); }; var stringFromCharCode = String.fromCharCode; var codePointToString = function(codePoint) { var string; // https://mathiasbynens.be/notes/javascript-escapes#single // Note: the `\b` escape sequence for U+0008 BACKSPACE in strings has a // different meaning in regular expressions (word boundary), so it cannot // be used here. if (codePoint == 0x09) { string = '\\t'; } // Note: IE < 9 treats `'\v'` as `'v'`, so avoid using it. // else if (codePoint == 0x0B) { // string = '\\v'; // } else if (codePoint == 0x0A) { string = '\\n'; } else if (codePoint == 0x0C) { string = '\\f'; } else if (codePoint == 0x0D) { string = '\\r'; } else if (codePoint == 0x5C) { string = '\\\\'; } else if ( codePoint == 0x24 || (codePoint >= 0x28 && codePoint <= 0x2B) || (codePoint >= 0x2D && codePoint <= 0x2F) || codePoint == 0x3F || (codePoint >= 0x5B && codePoint <= 0x5E) || (codePoint >= 0x7B && codePoint <= 0x7D) ) { // The code point maps to an unsafe printable ASCII character; // backslash-escape it. Here’s the list of those symbols: // // $()*+-./?[\]^{|} // // See #7 for more info. string = '\\' + stringFromCharCode(codePoint); } else if (codePoint >= 0x20 && codePoint <= 0x7E) { // The code point maps to one of these printable ASCII symbols // (including the space character): // // !"#%&',/0123456789:;<=>@ABCDEFGHIJKLMNO // PQRSTUVWXYZ_`abcdefghijklmnopqrstuvwxyz~ // // These can safely be used directly. string = stringFromCharCode(codePoint); } else if (codePoint <= 0xFF) { // https://mathiasbynens.be/notes/javascript-escapes#hexadecimal string = '\\x' + pad(hex(codePoint), 2); } else { // `codePoint <= 0xFFFF` holds true. // https://mathiasbynens.be/notes/javascript-escapes#unicode string = '\\u' + pad(hex(codePoint), 4); } // There’s no need to account for astral symbols / surrogate pairs here, // since `codePointToString` is private and only used for BMP code points. // But if that’s what you need, just add an `else` block with this code: // // string = '\\u' + pad(hex(highSurrogate(codePoint)), 4) // + '\\u' + pad(hex(lowSurrogate(codePoint)), 4); return string; }; var codePointToStringUnicode = function(codePoint) { if (codePoint <= 0xFFFF) { return codePointToString(codePoint); } return '\\u{' + codePoint.toString(16).toUpperCase() + '}'; }; var symbolToCodePoint = function(symbol) { var length = symbol.length; var first = symbol.charCodeAt(0); var second; if ( first >= HIGH_SURROGATE_MIN && first <= HIGH_SURROGATE_MAX && length > 1 // There is a next code unit. ) { // `first` is a high surrogate, and there is a next character. Assume // it’s a low surrogate (else it’s invalid usage of Regenerate anyway). second = symbol.charCodeAt(1); // https://mathiasbynens.be/notes/javascript-encoding#surrogate-formulae return (first - HIGH_SURROGATE_MIN) * 0x400 + second - LOW_SURROGATE_MIN + 0x10000; } return first; }; var createBMPCharacterClasses = function(data) { // Iterate over the data per `(start, end)` pair. var result = ''; var index = 0; var start; var end; var length = data.length; if (dataIsSingleton(data)) { return codePointToString(data[0]); } while (index < length) { start = data[index]; end = data[index + 1] - 1; // Note: the `- 1` makes `end` inclusive. if (start == end) { result += codePointToString(start); } else if (start + 1 == end) { result += codePointToString(start) + codePointToString(end); } else { result += codePointToString(start) + '-' + codePointToString(end); } index += 2; } return '[' + result + ']'; }; var createUnicodeCharacterClasses = function(data) { // Iterate over the data per `(start, end)` pair. var result = ''; var index = 0; var start; var end; var length = data.length; if (dataIsSingleton(data)) { return codePointToStringUnicode(data[0]); } while (index < length) { start = data[index]; end = data[index + 1] - 1; // Note: the `- 1` makes `end` inclusive. if (start == end) { result += codePointToStringUnicode(start); } else if (start + 1 == end) { result += codePointToStringUnicode(start) + codePointToStringUnicode(end); } else { result += codePointToStringUnicode(start) + '-' + codePointToStringUnicode(end); } index += 2; } return '[' + result + ']'; }; var splitAtBMP = function(data) { // Iterate over the data per `(start, end)` pair. var loneHighSurrogates = []; var loneLowSurrogates = []; var bmp = []; var astral = []; var index = 0; var start; var end; var length = data.length; while (index < length) { start = data[index]; end = data[index + 1] - 1; // Note: the `- 1` makes `end` inclusive. if (start < HIGH_SURROGATE_MIN) { // The range starts and ends before the high surrogate range. // E.g. (0, 0x10). if (end < HIGH_SURROGATE_MIN) { bmp.push(start, end + 1); } // The range starts before the high surrogate range and ends within it. // E.g. (0, 0xD855). if (end >= HIGH_SURROGATE_MIN && end <= HIGH_SURROGATE_MAX) { bmp.push(start, HIGH_SURROGATE_MIN); loneHighSurrogates.push(HIGH_SURROGATE_MIN, end + 1); } // The range starts before the high surrogate range and ends in the low // surrogate range. E.g. (0, 0xDCFF). if (end >= LOW_SURROGATE_MIN && end <= LOW_SURROGATE_MAX) { bmp.push(start, HIGH_SURROGATE_MIN); loneHighSurrogates.push(HIGH_SURROGATE_MIN, HIGH_SURROGATE_MAX + 1); loneLowSurrogates.push(LOW_SURROGATE_MIN, end + 1); } // The range starts before the high surrogate range and ends after the // low surrogate range. E.g. (0, 0x10FFFF). if (end > LOW_SURROGATE_MAX) { bmp.push(start, HIGH_SURROGATE_MIN); loneHighSurrogates.push(HIGH_SURROGATE_MIN, HIGH_SURROGATE_MAX + 1); loneLowSurrogates.push(LOW_SURROGATE_MIN, LOW_SURROGATE_MAX + 1); if (end <= 0xFFFF) { bmp.push(LOW_SURROGATE_MAX + 1, end + 1); } else { bmp.push(LOW_SURROGATE_MAX + 1, 0xFFFF + 1); astral.push(0xFFFF + 1, end + 1); } } } else if (start >= HIGH_SURROGATE_MIN && start <= HIGH_SURROGATE_MAX) { // The range starts and ends in the high surrogate range. // E.g. (0xD855, 0xD866). if (end >= HIGH_SURROGATE_MIN && end <= HIGH_SURROGATE_MAX) { loneHighSurrogates.push(start, end + 1); } // The range starts in the high surrogate range and ends in the low // surrogate range. E.g. (0xD855, 0xDCFF). if (end >= LOW_SURROGATE_MIN && end <= LOW_SURROGATE_MAX) { loneHighSurrogates.push(start, HIGH_SURROGATE_MAX + 1); loneLowSurrogates.push(LOW_SURROGATE_MIN, end + 1); } // The range starts in the high surrogate range and ends after the low // surrogate range. E.g. (0xD855, 0x10FFFF). if (end > LOW_SURROGATE_MAX) { loneHighSurrogates.push(start, HIGH_SURROGATE_MAX + 1); loneLowSurrogates.push(LOW_SURROGATE_MIN, LOW_SURROGATE_MAX + 1); if (end <= 0xFFFF) { bmp.push(LOW_SURROGATE_MAX + 1, end + 1); } else { bmp.push(LOW_SURROGATE_MAX + 1, 0xFFFF + 1); astral.push(0xFFFF + 1, end + 1); } } } else if (start >= LOW_SURROGATE_MIN && start <= LOW_SURROGATE_MAX) { // The range starts and ends in the low surrogate range. // E.g. (0xDCFF, 0xDDFF). if (end >= LOW_SURROGATE_MIN && end <= LOW_SURROGATE_MAX) { loneLowSurrogates.push(start, end + 1); } // The range starts in the low surrogate range and ends after the low // surrogate range. E.g. (0xDCFF, 0x10FFFF). if (end > LOW_SURROGATE_MAX) { loneLowSurrogates.push(start, LOW_SURROGATE_MAX + 1); if (end <= 0xFFFF) { bmp.push(LOW_SURROGATE_MAX + 1, end + 1); } else { bmp.push(LOW_SURROGATE_MAX + 1, 0xFFFF + 1); astral.push(0xFFFF + 1, end + 1); } } } else if (start > LOW_SURROGATE_MAX && start <= 0xFFFF) { // The range starts and ends after the low surrogate range. // E.g. (0xFFAA, 0x10FFFF). if (end <= 0xFFFF) { bmp.push(start, end + 1); } else { bmp.push(start, 0xFFFF + 1); astral.push(0xFFFF + 1, end + 1); } } else { // The range starts and ends in the astral range. astral.push(start, end + 1); } index += 2; } return { 'loneHighSurrogates': loneHighSurrogates, 'loneLowSurrogates': loneLowSurrogates, 'bmp': bmp, 'astral': astral }; }; var optimizeSurrogateMappings = function(surrogateMappings) { var result = []; var tmpLow = []; var addLow = false; var mapping; var nextMapping; var highSurrogates; var lowSurrogates; var nextHighSurrogates; var nextLowSurrogates; var index = -1; var length = surrogateMappings.length; while (++index < length) { mapping = surrogateMappings[index]; nextMapping = surrogateMappings[index + 1]; if (!nextMapping) { result.push(mapping); continue; } highSurrogates = mapping[0]; lowSurrogates = mapping[1]; nextHighSurrogates = nextMapping[0]; nextLowSurrogates = nextMapping[1]; // Check for identical high surrogate ranges. tmpLow = lowSurrogates; while ( nextHighSurrogates && highSurrogates[0] == nextHighSurrogates[0] && highSurrogates[1] == nextHighSurrogates[1] ) { // Merge with the next item. if (dataIsSingleton(nextLowSurrogates)) { tmpLow = dataAdd(tmpLow, nextLowSurrogates[0]); } else { tmpLow = dataAddRange( tmpLow, nextLowSurrogates[0], nextLowSurrogates[1] - 1 ); } ++index; mapping = surrogateMappings[index]; highSurrogates = mapping[0]; lowSurrogates = mapping[1]; nextMapping = surrogateMappings[index + 1]; nextHighSurrogates = nextMapping && nextMapping[0]; nextLowSurrogates = nextMapping && nextMapping[1]; addLow = true; } result.push([ highSurrogates, addLow ? tmpLow : lowSurrogates ]); addLow = false; } return optimizeByLowSurrogates(result); }; var optimizeByLowSurrogates = function(surrogateMappings) { if (surrogateMappings.length == 1) { return surrogateMappings; } var index = -1; var innerIndex = -1; while (++index < surrogateMappings.length) { var mapping = surrogateMappings[index]; var lowSurrogates = mapping[1]; var lowSurrogateStart = lowSurrogates[0]; var lowSurrogateEnd = lowSurrogates[1]; innerIndex = index; // Note: the loop starts at the next index. while (++innerIndex < surrogateMappings.length) { var otherMapping = surrogateMappings[innerIndex]; var otherLowSurrogates = otherMapping[1]; var otherLowSurrogateStart = otherLowSurrogates[0]; var otherLowSurrogateEnd = otherLowSurrogates[1]; if ( lowSurrogateStart == otherLowSurrogateStart && lowSurrogateEnd == otherLowSurrogateEnd ) { // Add the code points in the other item to this one. if (dataIsSingleton(otherMapping[0])) { mapping[0] = dataAdd(mapping[0], otherMapping[0][0]); } else { mapping[0] = dataAddRange( mapping[0], otherMapping[0][0], otherMapping[0][1] - 1 ); } // Remove the other, now redundant, item. surrogateMappings.splice(innerIndex, 1); --innerIndex; } } } return surrogateMappings; }; var surrogateSet = function(data) { // Exit early if `data` is an empty set. if (!data.length) { return []; } // Iterate over the data per `(start, end)` pair. var index = 0; var start; var end; var startHigh; var startLow; var endHigh; var endLow; var surrogateMappings = []; var length = data.length; while (index < length) { start = data[index]; end = data[index + 1] - 1; startHigh = highSurrogate(start); startLow = lowSurrogate(start); endHigh = highSurrogate(end); endLow = lowSurrogate(end); var startsWithLowestLowSurrogate = startLow == LOW_SURROGATE_MIN; var endsWithHighestLowSurrogate = endLow == LOW_SURROGATE_MAX; var complete = false; // Append the previous high-surrogate-to-low-surrogate mappings. // Step 1: `(startHigh, startLow)` to `(startHigh, LOW_SURROGATE_MAX)`. if ( startHigh == endHigh || startsWithLowestLowSurrogate && endsWithHighestLowSurrogate ) { surrogateMappings.push([ [startHigh, endHigh + 1], [startLow, endLow + 1] ]); complete = true; } else { surrogateMappings.push([ [startHigh, startHigh + 1], [startLow, LOW_SURROGATE_MAX + 1] ]); } // Step 2: `(startHigh + 1, LOW_SURROGATE_MIN)` to // `(endHigh - 1, LOW_SURROGATE_MAX)`. if (!complete && startHigh + 1 < endHigh) { if (endsWithHighestLowSurrogate) { // Combine step 2 and step 3. surrogateMappings.push([ [startHigh + 1, endHigh + 1], [LOW_SURROGATE_MIN, endLow + 1] ]); complete = true; } else { surrogateMappings.push([ [startHigh + 1, endHigh], [LOW_SURROGATE_MIN, LOW_SURROGATE_MAX + 1] ]); } } // Step 3. `(endHigh, LOW_SURROGATE_MIN)` to `(endHigh, endLow)`. if (!complete) { surrogateMappings.push([ [endHigh, endHigh + 1], [LOW_SURROGATE_MIN, endLow + 1] ]); } index += 2; } // The format of `surrogateMappings` is as follows: // // [ surrogateMapping1, surrogateMapping2 ] // // i.e.: // // [ // [ highSurrogates1, lowSurrogates1 ], // [ highSurrogates2, lowSurrogates2 ] // ] return optimizeSurrogateMappings(surrogateMappings); }; var createSurrogateCharacterClasses = function(surrogateMappings) { var result = []; forEach(surrogateMappings, function(surrogateMapping) { var highSurrogates = surrogateMapping[0]; var lowSurrogates = surrogateMapping[1]; result.push( createBMPCharacterClasses(highSurrogates) + createBMPCharacterClasses(lowSurrogates) ); }); return result.join('|'); }; var createCharacterClassesFromData = function(data, bmpOnly, hasUnicodeFlag) { if (hasUnicodeFlag) { return createUnicodeCharacterClasses(data); } var result = []; var parts = splitAtBMP(data); var loneHighSurrogates = parts.loneHighSurrogates; var loneLowSurrogates = parts.loneLowSurrogates; var bmp = parts.bmp; var astral = parts.astral; var hasLoneHighSurrogates = !dataIsEmpty(loneHighSurrogates); var hasLoneLowSurrogates = !dataIsEmpty(loneLowSurrogates); var surrogateMappings = surrogateSet(astral); if (bmpOnly) { bmp = dataAddData(bmp, loneHighSurrogates); hasLoneHighSurrogates = false; bmp = dataAddData(bmp, loneLowSurrogates); hasLoneLowSurrogates = false; } if (!dataIsEmpty(bmp)) { // The data set contains BMP code points that are not high surrogates // needed for astral code points in the set. result.push(createBMPCharacterClasses(bmp)); } if (surrogateMappings.length) { // The data set contains astral code points; append character classes // based on their surrogate pairs. result.push(createSurrogateCharacterClasses(surrogateMappings)); } // https://gist.github.com/mathiasbynens/bbe7f870208abcfec860 if (hasLoneHighSurrogates) { result.push( createBMPCharacterClasses(loneHighSurrogates) + // Make sure the high surrogates aren’t part of a surrogate pair. '(?![\\uDC00-\\uDFFF])' ); } if (hasLoneLowSurrogates) { result.push( // It is not possible to accurately assert the low surrogates aren’t // part of a surrogate pair, since JavaScript regular expressions do // not support lookbehind. '(?:[^\\uD800-\\uDBFF]|^)' + createBMPCharacterClasses(loneLowSurrogates) ); } return result.join('|'); }; /*--------------------------------------------------------------------------*/ // `regenerate` can be used as a constructor (and new methods can be added to // its prototype) but also as a regular function, the latter of which is the // documented and most common usage. For that reason, it’s not capitalized. var regenerate = function(value) { if (arguments.length > 1) { value = slice.call(arguments); } if (this instanceof regenerate) { this.data = []; return value ? this.add(value) : this; } return (new regenerate).add(value); }; regenerate.version = '1.3.3'; var proto = regenerate.prototype; extend(proto, { 'add': function(value) { var $this = this; if (value == null) { return $this; } if (value instanceof regenerate) { // Allow passing other Regenerate instances. $this.data = dataAddData($this.data, value.data); return $this; } if (arguments.length > 1) { value = slice.call(arguments); } if (isArray(value)) { forEach(value, function(item) { $this.add(item); }); return $this; } $this.data = dataAdd( $this.data, isNumber(value) ? value : symbolToCodePoint(value) ); return $this; }, 'remove': function(value) { var $this = this; if (value == null) { return $this; } if (value instanceof regenerate) { // Allow passing other Regenerate instances. $this.data = dataRemoveData($this.data, value.data); return $this; } if (arguments.length > 1) { value = slice.call(arguments); } if (isArray(value)) { forEach(value, function(item) { $this.remove(item); }); return $this; } $this.data = dataRemove( $this.data, isNumber(value) ? value : symbolToCodePoint(value) ); return $this; }, 'addRange': function(start, end) { var $this = this; $this.data = dataAddRange($this.data, isNumber(start) ? start : symbolToCodePoint(start), isNumber(end) ? end : symbolToCodePoint(end) ); return $this; }, 'removeRange': function(start, end) { var $this = this; var startCodePoint = isNumber(start) ? start : symbolToCodePoint(start); var endCodePoint = isNumber(end) ? end : symbolToCodePoint(end); $this.data = dataRemoveRange( $this.data, startCodePoint, endCodePoint ); return $this; }, 'intersection': function(argument) { var $this = this; // Allow passing other Regenerate instances. // TODO: Optimize this by writing and using `dataIntersectionData()`. var array = argument instanceof regenerate ? dataToArray(argument.data) : argument; $this.data = dataIntersection($this.data, array); return $this; }, 'contains': function(codePoint) { return dataContains( this.data, isNumber(codePoint) ? codePoint : symbolToCodePoint(codePoint) ); }, 'clone': function() { var set = new regenerate; set.data = this.data.slice(0); return set; }, 'toString': function(options) { var result = createCharacterClassesFromData( this.data, options ? options.bmpOnly : false, options ? options.hasUnicodeFlag : false ); if (!result) { // For an empty set, return something that can be inserted `/here/` to // form a valid regular expression. Avoid `(?:)` since that matches the // empty string. return '[]'; } // Use `\0` instead of `\x00` where possible. return result.replace(regexNull, '\\0$1'); }, 'toRegExp': function(flags) { var pattern = this.toString( flags && flags.indexOf('u') != -1 ? { 'hasUnicodeFlag': true } : null ); return RegExp(pattern, flags || ''); }, 'valueOf': function() { // Note: `valueOf` is aliased as `toArray`. return dataToArray(this.data); } }); proto.toArray = proto.valueOf; // Some AMD build optimizers, like r.js, check for specific condition patterns // like the following: if ( typeof define == 'function' && typeof define.amd == 'object' && define.amd ) { define(function() { return regenerate; }); } else if (freeExports && !freeExports.nodeType) { if (freeModule) { // in Node.js, io.js, or RingoJS v0.8.0+ freeModule.exports = regenerate; } else { // in Narwhal or RingoJS v0.7.0- freeExports.regenerate = regenerate; } } else { // in Rhino or a web browser root.regenerate = regenerate; } }(this)); regenerate-1.3.3/tests/000077500000000000000000000000001315775261000150105ustar00rootroot00000000000000regenerate-1.3.3/tests/index.html000066400000000000000000000016731315775261000170140ustar00rootroot00000000000000 Regenerate test suite
regenerate-1.3.3/tests/tests.js000066400000000000000000002624421315775261000165220ustar00rootroot00000000000000(function(root) { 'use strict'; var noop = Function.prototype; var load = (typeof require == 'function' && !(root.define && define.amd)) ? require : (!root.document && root.java && root.load) || noop; var QUnit = (function() { return root.QUnit || ( root.addEventListener || (root.addEventListener = noop), root.setTimeout || (root.setTimeout = noop), root.QUnit = load('../node_modules/qunitjs/qunit/qunit.js') || root.QUnit, addEventListener === noop && delete root.addEventListener, root.QUnit ); }()); var qe = load('../node_modules/qunit-extras/qunit-extras.js'); if (qe) { qe.runInContext(root); } // Extend `Object.prototype` to see if Regenerate can handle it. // 0xD834 is the high surrogate code point for U+1D306 (among others). Object.prototype[0xD834] = true; /** The `regenerate` object to test */ var regenerate = root.regenerate || (root.regenerate = ( regenerate = load('../regenerate.js') || root.regenerate, regenerate = regenerate.regenerate || regenerate )); /*--------------------------------------------------------------------------*/ // Inclusive `range`, e.g. `range(1, 3)` → `[1, 2, 3]`. var range = function(start, stop) { for (var result = []; start <= stop; result.push(start++)); return result; }; // `throws` is a reserved word in ES3; alias it to avoid errors var raises = QUnit.assert['throws']; // explicitly call `QUnit.module()` instead of `module()` // in case we are in a CLI environment QUnit.module('regenerate'); test('general functionality', function() { var set = regenerate(0, 1, 2, 3, 4, 5, 6, 7, 8, 9, 10) .add(0x1D306) .add([15, 16, 20]) .remove(20) .remove([9, 15]) .intersection([3, 7, 10, 16, 0x1D306, 9001]) .remove(7, 16); var setB = regenerate(0x1337, 0x1338, 0x31337); var setC = regenerate(0x42); deepEqual( set.clone().add(setB).add(setC).toArray(), [3, 10, 0x42, 0x1337, 0x1338, 0x1D306, 0x31337], 'add(set) + clone' ); deepEqual( regenerate(3, 10, 0x42, 0x1337, 0x1338, 0x1D306, 0x31337).remove(setB).remove(setC).toArray(), [3, 10, 0x1D306], 'remove(set)' ); deepEqual( regenerate(3, 10, 0x42, 0x1337, 0x1D306, 0x31337).remove(setB).toArray(), [3, 10, 0x42, 0x1D306], 'remove(set)' ); deepEqual( regenerate(3, 10, 0x42, 0x1337, 0x1D306, 0x31337).intersection(setB).toArray(), [0x1337, 0x31337], 'intersection(set)' ); deepEqual( regenerate(0, 1, 2, 3, 4, 5).intersection([3, 4, 5]).toArray(), [3, 4, 5], 'intersection with consecutive code points' ); deepEqual( regenerate(0, 1, 2, 3, 4, 5).remove(5).toArray(), [0, 1, 2, 3, 4], 'remove that triggers an upper limit change in the data structure' ); deepEqual( regenerate(0, 1, 2, 3, 4, 5).remove().toArray(), [0, 1, 2, 3, 4, 5], 'remove with no arguments' ); deepEqual( set.toArray(), [3, 10, 0x1D306], 'Set: add, remove, remove, intersection' ); equal( set.toString(), '[\\x03\\n]|\\uD834\\uDF06', 'toString' ); equal( set.contains(0x1D306), true, 'contains: true' ); equal( set.contains(0x1D307), false, 'contains: false' ); equal( set.contains('\uD834\uDF07'), false, 'contains: false' ); equal( regenerate(0x62).add(0x1D307).contains('\uD834\uDF06'), false, 'contains: false' ); equal( regenerate().add([0x1D307, 0x1D3A0, 0x1D3FF]).remove([0x1D3A0, 0x1D3FF]).contains(0x1D3A0), false, 'contains: false' ); deepEqual( regenerate().addRange(0x0, 0x10FFFF).removeRange(0xA, 0x10FFFF).toArray(), [0, 1, 2, 3, 4, 5, 6, 7, 8, 9], 'Set: start with a huge set, then remove a huge subset of code points' ); deepEqual( regenerate(0x1D3A0, 0x1D307).add(0x1D3FF, 'A').remove(0x1D3A0, 0x1D3FF).toArray(), [0x41, 0x1D307], 'set(a, b, ...)' ); deepEqual( regenerate(0x1D3A0, 0x1D307, 'A').add(0x1D3FF).remove(0x1D3A0, 0x1D3FF).toArray(), [0x41, 0x1D307], 'set(a, b, ...)' ); deepEqual( regenerate(0x0).addRange(0x5, 0x8).toArray(), [0x0, 0x5, 0x6, 0x7, 0x8], 'addRange with numbers' ); deepEqual( regenerate(0x0).addRange('a', 'c').toArray(), [0x0, 0x61, 0x62, 0x63], 'addRange with strings' ); deepEqual( regenerate(0x0).addRange(0x61, 'c').toArray(), [0x0, 0x61, 0x62, 0x63], 'addRange with a number and a string' ); deepEqual( regenerate(new Number(0x0)).addRange(new String('a'), new Number(0x63)).toArray(), [0x0, 0x61, 0x62, 0x63], 'addRange with a Number object and a String object' ); equal( regenerate('b').addRange('a', 'c').toString(), '[a-c]', 'addRange where the new range wraps an old range in the set' ); equal( regenerate('b', 'x').addRange('a', 'c').toString(), '[a-cx]', 'addRange where the new range wraps an old range in the set' ); deepEqual( regenerate(0x1D306).addRange(0x0, 0xFF).removeRange('\0', '\xFE').toArray(), [0xFF, 0x1D306], 'removeRange' ); deepEqual( regenerate(0x1D306).addRange(0x0, 0xFF).removeRange(0x0, 0x10FFFF).toArray(), [], 'removeRange removing all code points' ); deepEqual( regenerate().addRange(0x300, 0x374).removeRange(0x370, 0x374).toString(), '[\\u0300-\\u036F]', 'removeRange' ); deepEqual( regenerate().addRange(0x300, 0x374).removeRange(0x300, 0x304).toString(), '[\\u0305-\\u0374]', 'removeRange' ); deepEqual( regenerate().addRange(0x0000, 0x0300).removeRange(0x0100, 0x0200).toRegExp(), /[\0-\xFF\u0201-\u0300]/, 'toRegExp' ); deepEqual( regenerate().addRange(0x0000, 0x0300).removeRange(0x0100, 0x0200).toRegExp('g'), /[\0-\xFF\u0201-\u0300]/g, 'toRegExp with flags' ); var supportsUnicodeFlag = (function() { try { var regex = new RegExp('\\u{1D306}', 'u'); return true; } catch (exception) { return false } }()); supportsUnicodeFlag && deepEqual( regenerate().addRange(0x0, 0x10FFFF).toRegExp('gu'), new RegExp('[\\0-\\u{10FFFF}]', 'gu'), 'toRegExp with `u` flag triggers `hasUnicodeFlag: true`' ); raises( function() { regenerate(0x10, 0x1F).removeRange(0x1F, 0x1A).toArray(); }, Error, 'removeRange: incorrect usage' ); raises( function() { regenerate(0x10, 0x1F).addRange(0x1F, 0x1A).toArray(); }, Error, 'addRange: incorrect usage' ); deepEqual( regenerate(0).removeRange(0x1000, 0x2000).toArray(), [0], 'removeRange with no effect' ); deepEqual( regenerate(0x1000).removeRange(0, 1).toArray(), [0x1000], 'removeRange with no effect' ); deepEqual( regenerate(42).addRange(0, 10).removeRange(0, 10).toArray(), [42], 'removeRange removing an exact range' ); deepEqual( regenerate(42).addRange(0, 10).removeRange(4, 20).toArray(), [0, 1, 2, 3, 42], 'removeRange removing a partial range' ); deepEqual( regenerate(42).addRange(14, 23).removeRange(4, 20).toArray(), [21, 22, 23, 42], 'removeRange removing a partial range' ); deepEqual( regenerate().add(42, 50, 51, 53, 57, 59, 60).removeRange(50, 60).toArray(), [42], 'removeRange removing several ranges from the data' ); deepEqual( regenerate().addRange(0, 5).addRange(3, 7).toArray(), [0, 1, 2, 3, 4, 5, 6, 7], 'addRange with overlapping ranges' ); deepEqual( regenerate().addRange(0, 5).addRange(6, 7).toArray(), [0, 1, 2, 3, 4, 5, 6, 7], 'addRange extending the end of a range' ); deepEqual( regenerate().addRange(0, 2).addRange(4, 6).addRange(3, 4).toArray(), [0, 1, 2, 3, 4, 5, 6], 'addRange gluing two ranges together' ); deepEqual( regenerate().addRange(0, 2).addRange(5, 7).addRange(3, 4).toArray(), [0, 1, 2, 3, 4, 5, 6, 7], 'addRange gluing two ranges together' ); deepEqual( regenerate().addRange(0, 2).addRange(4, 6).addRange(1, 5).toArray(), [0, 1, 2, 3, 4, 5, 6], 'addRange with overlapping ranges' ); deepEqual( regenerate().addRange(0, 5).addRange(10, 12).addRange(1, 3).toArray(), [0, 1, 2, 3, 4, 5, 10, 11, 12], 'addRange with a sub-range' ); deepEqual( regenerate().addRange(0, 2).addRange(7, 9).addRange(3, 4).toArray(), [0, 1, 2, 3, 4, 7, 8, 9], 'addRange extending the end of a range' ); deepEqual( regenerate().addRange(0, 3).addRange(5, 10).add(4).toArray(), [0, 1, 2, 3, 4, 5, 6, 7, 8, 9, 10], 'addRange gluing two ranges together' ); deepEqual( regenerate().addRange(0, 5).addRange(10, 15).addRange(3, 17).toArray(), [0, 1, 2, 3, 4, 5, 6, 7, 8, 9, 10, 11, 12, 13, 14, 15, 16, 17], 'addRange causing several sub-ranges to be deleted' ); equal( regenerate(0x08, 0x0A, 0x0C, 0x0D, 0x22, 0x27, 0x5C).toString(), '[\\x08\\n\\f\\r"\'\\\\]', 'toString escapes special characters using single escapes' ); equal( regenerate(0x09, 'a').toString(), '[\\ta]', 'toString escapes special characters using single escapes' ); equal( set.clone().add('a', '.', '-', ']').toString(), '[\\x03\\n\\-\\.\\]a]|\\uD834\\uDF06', 'toString uses hexadecimal and Unicode escapes when appropriate' ); deepEqual( regenerate().addRange(3, 6).add(2).toArray(), [2, 3, 4, 5, 6], 'add extending the start of a range' ); deepEqual( regenerate(set), set, 'Don’t wrap existing sets' ); deepEqual( regenerate(0x61).add(0x61, 0x61, 0x62).add(0x61).toArray(), [0x61, 0x62], 'Remove duplicates' ); deepEqual( regenerate().toArray(), [], 'Empty set returns empty array' ); deepEqual( regenerate().remove(0x1D306).toArray(), [], 'Empty set returns empty array' ); deepEqual( regenerate([]).toArray(), [], 'Empty array as input returns empty array' ); equal( regenerate().toString(), '[]', 'Empty set stringifies to `[]` (and not `(?:)` which matches the empty string)' ); equal( regenerate(0x10, 0x11, 0x12, 0x13, 0x40, 0x41, 0x42, 0x43, 0x44, 0x2603, 0xFD3F, 0xFFFF).toString(), '[\\x10-\\x13@-D\\u2603\\uFD3F\\uFFFF]', 'Random BMP code points' ); equal( regenerate(0x41, 0x42, 0x43, 0x44, 0x45, 0x46, 0x47, 0x48, 0x5A, 0x61).toString(), '[A-HZa]', 'BMP code points within the a-zA-Z range' ); equal( regenerate(0x61, 0x5A, 0x48, 0x47, 0x46, 0x45, 0x44, 0x43, 0x42, 0x41).toString(), '[A-HZa]', 'BMP code points within the a-zA-Z range, unordered' ); equal( regenerate(0x2F).toString(), '\\/', 'U+002F should be escaped to enable embedding in a literal' ); equal( regenerate(0x20, 0x21, 0x23, 0x2F).toString(), '[ !#\\/]', 'Random BMP code points' ); equal( regenerate(0xD800, 0xD801, 0xD802, 0xD803, 0xDBFF).toString(), '[\\uD800-\\uD803\\uDBFF](?![\\uDC00-\\uDFFF])', 'Unmatched high surrogates' ); equal( regenerate(0xD800, 0xD801, 0xD802, 0xD803, 0xDBFF).toString({ 'bmpOnly': false }), '[\\uD800-\\uD803\\uDBFF](?![\\uDC00-\\uDFFF])', 'Unmatched high surrogates with `bmpOnly: false`' ); equal( regenerate(0xD800, 0xD801, 0xD802, 0xD803, 0xDBFF).toString({ 'bmpOnly': true }), '[\\uD800-\\uD803\\uDBFF]', 'Unmatched high surrogates with `bmpOnly: true`' ); equal( regenerate(0xDC00, 0xDC01, 0xDC02, 0xDC03, 0xDC04, 0xDC05, 0xDFFB, 0xDFFD, 0xDFFE, 0xDFFF).toString(), '(?:[^\\uD800-\\uDBFF]|^)[\\uDC00-\\uDC05\\uDFFB\\uDFFD-\\uDFFF]', 'Unmatched low surrogates' ); equal( regenerate(0xDC00, 0xDC01, 0xDC02, 0xDC03, 0xDC04, 0xDC05, 0xDFFB, 0xDFFD, 0xDFFE, 0xDFFF).toString({ 'bmpOnly': false }), '(?:[^\\uD800-\\uDBFF]|^)[\\uDC00-\\uDC05\\uDFFB\\uDFFD-\\uDFFF]', 'Unmatched low surrogates with `bmpOnly: false`' ); equal( regenerate(0xDC00, 0xDC01, 0xDC02, 0xDC03, 0xDC04, 0xDC05, 0xDFFB, 0xDFFD, 0xDFFE, 0xDFFF).toString({ 'bmpOnly': true }), '[\\uDC00-\\uDC05\\uDFFB\\uDFFD-\\uDFFF]', 'Unmatched low surrogates with `bmpOnly: true`' ); equal( regenerate('a', '\xA9', 0x1D306).toString({ 'hasUnicodeFlag': true }), '[a\\xA9\\u{1D306}]', 'Various code points with `hasUnicodeFlag: true`' ); equal( regenerate().addRange(0x0, 0x10FFFF).toString({ 'hasUnicodeFlag': true }), '[\\0-\\u{10FFFF}]', 'All Unicode code points with `hasUnicodeFlag: true`' ); equal( regenerate().addRange(0xFFFE, 0x010001).toString({ 'hasUnicodeFlag': true }), '[\\uFFFE-\\u{10001}]', 'Range that starts within BMP and ends in astral range with `hasUnicodeFlag: true`' ); equal( regenerate(0x0, 0x1, 0x2, 0x3, 0x1D306, 0x1D307, 0x1D308, 0x1D30A).toString(), '[\\0-\\x03]|\\uD834[\\uDF06-\\uDF08\\uDF0A]', 'Mixed BMP and astral code points' ); equal( regenerate(0).toString(), '\\0', '\\0' ); equal( regenerate(0, 0x31, 0x32).toString(), '[\\x0012]', '\\0 may not be followed by a digit' ); equal( regenerate(0, 0x38, 0x39).toString(), '[\\x0089]', '\\0 may not be followed by a digit, even if it’s not an octal digit' ); equal( regenerate().addRange(0x0, 0xFFFF).toString(), '[\\0-\\uD7FF\\uE000-\\uFFFF]|[\\uD800-\\uDBFF](?![\\uDC00-\\uDFFF])|(?:[^\\uD800-\\uDBFF]|^)[\\uDC00-\\uDFFF]', 'All BMP code points' ); equal( regenerate().addRange(0x010000, 0x10FFFF).toString(), '[\\uD800-\\uDBFF][\\uDC00-\\uDFFF]', 'All astral code points' ); equal( regenerate().addRange(0x0, 0x10FFFF).toString(), '[\\0-\\uD7FF\\uE000-\\uFFFF]|[\\uD800-\\uDBFF][\\uDC00-\\uDFFF]|[\\uD800-\\uDBFF](?![\\uDC00-\\uDFFF])|(?:[^\\uD800-\\uDBFF]|^)[\\uDC00-\\uDFFF]', 'All Unicode code points' ); raises( function() { regenerate(0x110000).toString(); }, RangeError, 'Invalid code point > 0x10FFFF' ); raises( function() { regenerate(-1).toString(); }, RangeError, 'Invalid code point < 0x0000' ); equal( regenerate().addRange(0x10, 0x13).toString(), '[\\x10-\\x13]', 'BMP code points' ); equal( regenerate().addRange(0x41, 0x61).toString(), '[A-a]', 'BMP code points within the a-zA-Z range' ); raises( function() { regenerate().addRange(0xFFFF, 0x0).toString(); }, Error, 'addRange: start value greater than end value' ); raises( function() { regenerate().removeRange(0xFFFF, 0x0).toString(); }, Error, 'removeRange: start value greater than end value' ); raises( function() { regenerate().addRange(0x110000, 0x110005).toString(); }, RangeError, 'addRange: invalid code point > 0x10FFFF' ); raises( function() { regenerate().addRange(-10, -5).toString(); }, RangeError, 'addRange: Invalid code point < 0x0000' ); equal( regenerate().addRange(0, 0xDCFF).toString(), '[\\0-\\uD7FF]|[\\uD800-\\uDBFF](?![\\uDC00-\\uDFFF])|(?:[^\\uD800-\\uDBFF]|^)[\\uDC00-\\uDCFF]', 'Range starts before the high surrogate range and ends in the low surrogate range' ); equal( regenerate(0xD800 - 1).addRange(0xD800, 0xDBFF).toString(), '\\uD7FF|[\\uD800-\\uDBFF](?![\\uDC00-\\uDFFF])', 'Range starts right before high surrogate range' ); equal( regenerate(0xD800 - 1).addRange(0xD800, 0xDBFF).toString({ 'bmpOnly': true }), '[\\uD7FF-\\uDBFF]', 'Range starts right before high surrogate range with `bmpOnly: true`' ); equal( regenerate().addRange(0xD855, 0xFFFF).toString(), '[\\uE000-\\uFFFF]|[\\uD855-\\uDBFF](?![\\uDC00-\\uDFFF])|(?:[^\\uD800-\\uDBFF]|^)[\\uDC00-\\uDFFF]', 'Range starts in the high surrogate range and ends after the low surrogate range' ); equal( regenerate().addRange(0xDCFF, 0xDDFF).toString(), '(?:[^\\uD800-\\uDBFF]|^)[\\uDCFF-\\uDDFF]', 'Range starts and ends in the low surrogate range' ); equal( regenerate().addRange(0xDCFF, 0xFFFF).toString(), '[\\uE000-\\uFFFF]|(?:[^\\uD800-\\uDBFF]|^)[\\uDCFF-\\uDFFF]', 'Range starts in the low surrogate range and ends after the low surrogate range' ); equal( regenerate().addRange(0xDCFF, 0x10FFFF).toString(), '[\\uE000-\\uFFFF]|[\\uD800-\\uDBFF][\\uDC00-\\uDFFF]|(?:[^\\uD800-\\uDBFF]|^)[\\uDCFF-\\uDFFF]', 'Range starts in the low surrogate range and ends after the low surrogate range' ); equal( regenerate(0xDC00 - 1).addRange(0xDC00, 0xDFFF).toString(), '\\uDBFF(?![\\uDC00-\\uDFFF])|(?:[^\\uD800-\\uDBFF]|^)[\\uDC00-\\uDFFF]', 'Range starts right before low surrogate range' ); equal( regenerate(0xDC00 - 1).addRange(0xDC00, 0xDFFF).toString({ 'bmpOnly': true }), '[\\uDBFF-\\uDFFF]', 'Range starts right before low surrogate range with `bmpOnly: true`' ); equal( regenerate(0x200C).addRange(0xF900, 0xFDCF).addRange(0xFDF0, 0xFFFD).addRange(0x010000, 0x0EFFFF).toString(), '[\\u200C\\uF900-\\uFDCF\\uFDF0-\\uFFFD]|[\\uD800-\\uDB7F][\\uDC00-\\uDFFF]', 'Various code points' ); equal( regenerate('\u200C').addRange('\uF900', '\uFDCF').addRange('\uFDF0', '\uFFFD').addRange('\uD800\uDC00', '\uDB7F\uDFFF').toString(), '[\\u200C\\uF900-\\uFDCF\\uFDF0-\\uFFFD]|[\\uD800-\\uDB7F][\\uDC00-\\uDFFF]', 'Various code points, using symbols as input' ); raises( function() { regenerate({ 'lol': 'wat' }).toString(); }, TypeError, 'Argument is not a symbol, code point, or array consisting of those' ); raises( function() { regenerate().add({ 'lol': 'wat' }).toString(); }, TypeError, 'Argument is not a symbol, code point, or array consisting of those' ); raises( function() { regenerate().remove({ 'lol': 'wat' }).toString(); }, TypeError, 'Argument is not a symbol, code point, or array consisting of those' ); equal( regenerate('\x10', '\x11', '\x12', '\x13', '@', 'A', 'B', 'C', 'D', '\u2603', '\uFD3F', '\uFFFF').toString(), '[\\x10-\\x13@-D\\u2603\\uFD3F\\uFFFF]', 'BMP code points, using symbols as input' ); equal( regenerate('A', 'B', 'C', 'D', 'E', 'F', 'G', 'H', 'Z', 'a').toString(), '[A-HZa]', 'BMP code points within the a-zA-Z range, using symbols as input' ); equal( regenerate('a', 'Z', 'H', 'G', 'F', 'E', 'D', 'C', 'B', 'A').toString(), '[A-HZa]', 'BMP code points within the a-zA-Z range, unordered, using symbols as input' ); equal( regenerate('\uD800', '\uD801', '\uD802', '\uD803', '\uDBFF').toString(), '[\\uD800-\\uD803\\uDBFF](?![\\uDC00-\\uDFFF])', 'Unmatched high surrogates, using symbols as input' ); equal( regenerate('\uDC00', '\uDC01', '\uDC02', '\uDC03', '\uDC04', '\uDC05', '\uDFFB', '\uDFFD', '\uDFFE', '\uDFFF').toString(), '(?:[^\\uD800-\\uDBFF]|^)[\\uDC00-\\uDC05\\uDFFB\\uDFFD-\\uDFFF]', 'Unmatched low surrogates, using symbols as input' ); equal( regenerate('\0', '\x01', '\x02', '\x03', '\uD834\uDF06', '\uD834\uDF07', '\uD834\uDF08', '\uD834\uDF0A').toString(), '[\\0-\\x03]|\\uD834[\\uDF06-\\uDF08\\uDF0A]', 'Mixed BMP and astral code points' ); deepEqual( regenerate().addRange(0xF9FF, 0xFA07).toArray(), [0xF9FF, 0xFA00, 0xFA01, 0xFA02, 0xFA03, 0xFA04, 0xFA05, 0xFA06, 0xFA07], 'Simple range' ); deepEqual( regenerate().addRange(0, 3).add(0x200C).addRange(0xF900, 0xF902).valueOf(), [0, 1, 2, 3, 0x200C, 0xF900, 0xF901, 0xF902], 'Some code point ranges' ); raises( function() { regenerate(5).addRange(5).toString(); }, Error, 'addRange with a single argument' ); raises( function() { regenerate(5).removeRange(5).toString(); }, Error, 'removeRange with a single argument' ); equal( regenerate().addRange('a', 'f').contains('a'), true, 'contains' ); equal( regenerate().addRange('a', 'f').contains('b'), true, 'contains' ); equal( regenerate().addRange('a', 'f').contains('f'), true, 'contains' ); equal( regenerate().addRange('a', 'f').contains('g'), false, 'contains' ); equal( regenerate().addRange('a', 'f').contains('A'), false, 'contains' ); equal( regenerate().addRange('a', 'f').contains('B'), false, 'contains' ); equal( regenerate().addRange('a', 'f').contains('F'), false, 'contains' ); equal( regenerate().addRange('a', 'f').contains('G'), false, 'contains' ); deepEqual( regenerate(1, 2, 3, 4, 5, 6, 7).remove([1, 3, 7]).toArray(), [2, 4, 5, 6], 'remove' ); deepEqual( regenerate(1, 2, 3, 4).remove([0]).toArray(), [1, 2, 3, 4], 'remove' ); deepEqual( regenerate(0x1D306, 0x41, 0x1D307, 0x42, 0x44, 0x1F4A9).remove('A', 0x1D307, ['B', 'D', '\uD83D\uDCA9']).toArray(), [0x1D306], 'remove with various value types' ); deepEqual( regenerate().add('A', 0x1D307, 119559, ['B', 0x1D306, 'D', '\uD83D\uDCA9']).toArray(), [0x41, 0x42, 0x44, 0x1D306, 0x1D307, 0x1F4A9], 'add with various value types' ); equal( regenerate().addRange(0x103FE, 0x10401).toString(), '\\uD800[\\uDFFE\\uDFFF]|\\uD801[\\uDC00\\uDC01]', 'surrogate bounds (from \\uD800\\uDFFE to \\uD801\\uDC01)' ); equal( regenerate().addRange(0x10001, 0x10401).toString(), '\\uD800[\\uDC01-\\uDFFF]|\\uD801[\\uDC00\\uDC01]', 'common low surrogates (from \\uD800\\uDC01 to \\uD801\\uDC01)' ); equal( regenerate().add(0x10001, 0x10401).toString(), '[\\uD800\\uD801]\\uDC01', 'common low surrogates (\\uD800\\uDC01 and \\uD801\\uDC01)' ); equal( regenerate().add(0x10001, 0x10401, 0x10801).toString(), '[\\uD800-\\uD802]\\uDC01', 'common low surrogates (\\uD800\\uDC01 and \\uD801\\uDC01 and \\uD802\\uDC01)' ); equal( regenerate().addRange(0xD800, 0xDBFF).addRange(0xDC00, 0xDFFF).add(0xFFFF).toString(), '\\uFFFF|[\\uD800-\\uDBFF](?![\\uDC00-\\uDFFF])|(?:[^\\uD800-\\uDBFF]|^)[\\uDC00-\\uDFFF]', 'BMP-only symbols incl. lone surrogates but with higher code points too' ); equal( regenerate().addRange(0xD800, 0xDBFF).addRange(0xDC00, 0xDFFF).add(0xFFFF, 0x1D306).toString(), '\\uFFFF|\\uD834\\uDF06|[\\uD800-\\uDBFF](?![\\uDC00-\\uDFFF])|(?:[^\\uD800-\\uDBFF]|^)[\\uDC00-\\uDFFF]', 'BMP-only symbols incl. lone surrogates but with higher code points and an astral code point too' ); equal( regenerate().addRange(0xD0300, 0xFABFF).toString(), '\\uDB00[\\uDF00-\\uDFFF]|[\\uDB01-\\uDBAA][\\uDC00-\\uDFFF]', 'two distinct sets of common low surrogates (from \\uDB00\\uDF00 to \\uDBAA\\uDFFF)' ); equal( regenerate().addRange(0xD0000, 0xD03FF).toString(), '\\uDB00[\\uDC00-\\uDFFF]', 'common high surrogates (from \\uDB00\\uDC00 to \\uDB00\\uDFFF)' ); equal( regenerate().add(0xD0000, 0xD03FF).toString(), '\\uDB00[\\uDC00\\uDFFF]', 'common high surrogates (\\uDB00\\uDC00 and \\uDB00\\uDFFF)' ); equal( regenerate().add(0xD0200, 0xFA9DD).toString(), '\\uDB00\\uDE00|\\uDBAA\\uDDDD', 'two distinct sets of common low surrogates (\\uDB00\\uDE00 and \\uDBAA\\uDDDD)' ); equal( regenerate().addRange(0xD0200, 0xFA9DD).toString(), '\\uDB00[\\uDE00-\\uDFFF]|[\\uDB01-\\uDBA9][\\uDC00-\\uDFFF]|\\uDBAA[\\uDC00-\\uDDDD]', 'two distinct sets of common low surrogates (from \\uDB00\\uDE00 to \\uDBAA\\uDDDD)' ); equal( regenerate().addRange(0x20, 0xD900).toString(), '[ -\\uD7FF]|[\\uD800-\\uD900](?![\\uDC00-\\uDFFF])', 'adding a range that starts in ASCII and ends in the high surrogate range' ); equal( regenerate().addRange(0x20, 0x1D306).toString(), '[ -\\uD7FF\\uE000-\\uFFFF]|[\\uD800-\\uD833][\\uDC00-\\uDFFF]|\\uD834[\\uDC00-\\uDF06]|[\\uD800-\\uDBFF](?![\\uDC00-\\uDFFF])|(?:[^\\uD800-\\uDBFF]|^)[\\uDC00-\\uDFFF]', 'adding a range that starts in ASCII and ends in the astral range' ); equal( regenerate().addRange(0xD900, 0x1D306).toString(), '[\\uE000-\\uFFFF]|[\\uD800-\\uD833][\\uDC00-\\uDFFF]|\\uD834[\\uDC00-\\uDF06]|[\\uD900-\\uDBFF](?![\\uDC00-\\uDFFF])|(?:[^\\uD800-\\uDBFF]|^)[\\uDC00-\\uDFFF]', 'adding a range that starts in the high surrogate range and ends in the astral range' ); equal( regenerate().addRange(0xF0000, 0xFFFFD).addRange(0x100000, 0x10FFFD).toString(), '[\\uDB80-\\uDBBE\\uDBC0-\\uDBFE][\\uDC00-\\uDFFF]|[\\uDBBF\\uDBFF][\\uDC00-\\uDFFD]', 'all astral code points except the last one' ); equal( regenerate().addRange(0xFFEF, 0xFFF8).addRange(0xFFFE, 0x102FF).toString(), '[\\uFFEF-\\uFFF8\\uFFFE\\uFFFF]|\\uD800[\\uDC00-\\uDEFF]', 'mixed BMP + astral code points' ); equal( '\uD834\uDF06'.match( RegExp('(' + regenerate().addRange(0xD800, 0xDBFF).addRange(0xDC00, 0xDFFF).toString() + ')') ), null, 'https://github.com/mathiasbynens/regenerate/issues/28' ); equal( regenerate.prototype.valueOf, regenerate.prototype.toArray, '`valueOf` and `toArray` should be the same' ); equal( new regenerate('a', 'b', 0x1D306).toString(), regenerate('a', 'b', 0x1D306).toString(), '`regenerate` can be called as a constructor' ); deepEqual( [regenerate.prototype.add.length, regenerate.prototype.remove.length, regenerate.prototype.addRange.length, regenerate.prototype.removeRange.length, regenerate.prototype.remove.length, regenerate.prototype.intersection.length, regenerate.prototype.contains.length, regenerate.prototype.clone.length, regenerate.prototype.toString.length, regenerate.prototype.toRegExp.length, regenerate.prototype.valueOf.length, regenerate.prototype.toArray.length], [1, 1, 2, 2, 1, 1, 1, 0, 1, 1, 0, 0], 'Regenerate methods are available on `regenerate.prototype`' ); deepEqual( regenerate(42).data, [42, 43], 'each Regenerate instance `set` stores its data in `set.data` for plugins to use' ); }); test('acid tests', function() { // Based on the output for https://gist.github.com/mathiasbynens/6334847 equal( regenerate(0x24, 0x5F, 0xAA, 0xB5, 0xBA, 0x2EC, 0x2EE, 0x386, 0x38C, 0x559, 0x6D5, 0x6FF, 0x710, 0x7B1, 0x7FA, 0x81A, 0x824, 0x828, 0x8A0, 0x93D, 0x950, 0x9B2, 0x9BD, 0x9CE, 0xA5E, 0xABD, 0xAD0, 0xB3D, 0xB71, 0xB83, 0xB9C, 0xBD0, 0xC3D, 0xCBD, 0xCDE, 0xD3D, 0xD4E, 0xDBD, 0xE84, 0xE8A, 0xE8D, 0xEA5, 0xEA7, 0xEBD, 0xEC6, 0xF00, 0x103F, 0x1061, 0x108E, 0x10C7, 0x10CD, 0x1258, 0x12C0, 0x17D7, 0x17DC, 0x18AA, 0x1AA7, 0x1F59, 0x1F5B, 0x1F5D, 0x1FBE, 0x2071, 0x207F, 0x2102, 0x2107, 0x2115, 0x2124, 0x2126, 0x2128, 0x214E, 0x2D27, 0x2D2D, 0x2D6F, 0x2E2F, 0xA8FB, 0xA9CF, 0xAA7A, 0xAAB1, 0xAAC0, 0xAAC2, 0xFB1D, 0xFB3E).addRange(0x41, 0x5A).addRange(0x61, 0x7A).addRange(0xC0, 0xD6).addRange(0xD8, 0xF6).addRange(0xF8, 0x2C1).addRange(0x2C6, 0x2D1).addRange(0x2E0, 0x2E4).addRange(0x370, 0x374).addRange(0x376, 0x377).addRange(0x37A, 0x37D).addRange(0x388, 0x38A).addRange(0x38E, 0x3A1).addRange(0x3A3, 0x3F5).addRange(0x3F7, 0x481).addRange(0x48A, 0x527).addRange(0x531, 0x556).addRange(0x561, 0x587).addRange(0x5D0, 0x5EA).addRange(0x5F0, 0x5F2).addRange(0x620, 0x64A).addRange(0x66E, 0x66F).addRange(0x671, 0x6D3).addRange(0x6E5, 0x6E6).addRange(0x6EE, 0x6EF).addRange(0x6FA, 0x6FC).addRange(0x712, 0x72F).addRange(0x74D, 0x7A5).addRange(0x7CA, 0x7EA).addRange(0x7F4, 0x7F5).addRange(0x800, 0x815).addRange(0x840, 0x858).addRange(0x8A2, 0x8AC).addRange(0x904, 0x939).addRange(0x958, 0x961).addRange(0x971, 0x977).addRange(0x979, 0x97F).addRange(0x985, 0x98C).addRange(0x98F, 0x990).addRange(0x993, 0x9A8).addRange(0x9AA, 0x9B0).addRange(0x9B6, 0x9B9).addRange(0x9DC, 0x9DD).addRange(0x9DF, 0x9E1).addRange(0x9F0, 0x9F1).addRange(0xA05, 0xA0A).addRange(0xA0F, 0xA10).addRange(0xA13, 0xA28).addRange(0xA2A, 0xA30).addRange(0xA32, 0xA33).addRange(0xA35, 0xA36).addRange(0xA38, 0xA39).addRange(0xA59, 0xA5C).addRange(0xA72, 0xA74).addRange(0xA85, 0xA8D).addRange(0xA8F, 0xA91).addRange(0xA93, 0xAA8).addRange(0xAAA, 0xAB0).addRange(0xAB2, 0xAB3).addRange(0xAB5, 0xAB9).addRange(0xAE0, 0xAE1).addRange(0xB05, 0xB0C).addRange(0xB0F, 0xB10).addRange(0xB13, 0xB28).addRange(0xB2A, 0xB30).addRange(0xB32, 0xB33).addRange(0xB35, 0xB39).addRange(0xB5C, 0xB5D).addRange(0xB5F, 0xB61).addRange(0xB85, 0xB8A).addRange(0xB8E, 0xB90).addRange(0xB92, 0xB95).addRange(0xB99, 0xB9A).addRange(0xB9E, 0xB9F).addRange(0xBA3, 0xBA4).addRange(0xBA8, 0xBAA).addRange(0xBAE, 0xBB9).addRange(0xC05, 0xC0C).addRange(0xC0E, 0xC10).addRange(0xC12, 0xC28).addRange(0xC2A, 0xC33).addRange(0xC35, 0xC39).addRange(0xC58, 0xC59).addRange(0xC60, 0xC61).addRange(0xC85, 0xC8C).addRange(0xC8E, 0xC90).addRange(0xC92, 0xCA8).addRange(0xCAA, 0xCB3).addRange(0xCB5, 0xCB9).addRange(0xCE0, 0xCE1).addRange(0xCF1, 0xCF2).addRange(0xD05, 0xD0C).addRange(0xD0E, 0xD10).addRange(0xD12, 0xD3A).addRange(0xD60, 0xD61).addRange(0xD7A, 0xD7F).addRange(0xD85, 0xD96).addRange(0xD9A, 0xDB1).addRange(0xDB3, 0xDBB).addRange(0xDC0, 0xDC6).addRange(0xE01, 0xE30).addRange(0xE32, 0xE33).addRange(0xE40, 0xE46).addRange(0xE81, 0xE82).addRange(0xE87, 0xE88).addRange(0xE94, 0xE97).addRange(0xE99, 0xE9F).addRange(0xEA1, 0xEA3).addRange(0xEAA, 0xEAB).addRange(0xEAD, 0xEB0).addRange(0xEB2, 0xEB3).addRange(0xEC0, 0xEC4).addRange(0xEDC, 0xEDF).addRange(0xF40, 0xF47).addRange(0xF49, 0xF6C).addRange(0xF88, 0xF8C).addRange(0x1000, 0x102A).addRange(0x1050, 0x1055).addRange(0x105A, 0x105D).addRange(0x1065, 0x1066).addRange(0x106E, 0x1070).addRange(0x1075, 0x1081).addRange(0x10A0, 0x10C5).addRange(0x10D0, 0x10FA).addRange(0x10FC, 0x1248).addRange(0x124A, 0x124D).addRange(0x1250, 0x1256).addRange(0x125A, 0x125D).addRange(0x1260, 0x1288).addRange(0x128A, 0x128D).addRange(0x1290, 0x12B0).addRange(0x12B2, 0x12B5).addRange(0x12B8, 0x12BE).addRange(0x12C2, 0x12C5).addRange(0x12C8, 0x12D6).addRange(0x12D8, 0x1310).addRange(0x1312, 0x1315).addRange(0x1318, 0x135A).addRange(0x1380, 0x138F).addRange(0x13A0, 0x13F4).addRange(0x1401, 0x166C).addRange(0x166F, 0x167F).addRange(0x1681, 0x169A).addRange(0x16A0, 0x16EA).addRange(0x16EE, 0x16F0).addRange(0x1700, 0x170C).addRange(0x170E, 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