f6ac36c632
Add semantic token highlighting for 'that' variable and comment file references in VS Code extension Add Phone_Text_Input and Currency_Input components with formatting utilities Implement client widgets, form standardization, and soft delete functionality Add modal scroll lock and update documentation Implement comprehensive modal system with form integration and validation Fix modal component instantiation using jQuery plugin API Implement modal system with responsive sizing, queuing, and validation support Implement form submission with validation, error handling, and loading states Implement country/state selectors with dynamic data loading and Bootstrap styling Revert Rsx::Route() highlighting in Blade/PHP files Target specific PHP scopes for Rsx::Route() highlighting in Blade Expand injection selector for Rsx::Route() highlighting Add custom syntax highlighting for Rsx::Route() and Rsx.Route() calls Update jqhtml packages to v2.2.165 Add bundle path validation for common mistakes (development mode only) Create Ajax_Select_Input widget and Rsx_Reference_Data controller Create Country_Select_Input widget with default country support Initialize Tom Select on Select_Input widgets Add Tom Select bundle for enhanced select dropdowns Implement ISO 3166 geographic data system for country/region selection Implement widget-based form system with disabled state support 🤖 Generated with [Claude Code](https://claude.com/claude-code) Co-Authored-By: Claude <noreply@anthropic.com>
regexpu-core 
regexpu is a source code transpiler that enables the use of ES2015 Unicode regular expressions in JavaScript-of-today (ES5).
regexpu-core contains regexpu’s core functionality, i.e. rewritePattern(pattern, flag), which enables rewriting regular expressions that make use of the ES2015 u flag into equivalent ES5-compatible regular expression patterns.
Installation
To use regexpu-core programmatically, install it as a dependency via npm:
npm install regexpu-core --save
Then, require it:
const rewritePattern = require('regexpu-core');
API
This module exports a single function named rewritePattern.
rewritePattern(pattern, flags, options)
This function takes a string that represents a regular expression pattern as well as a string representing its flags, and returns an ES5-compatible version of the pattern.
rewritePattern('foo.bar', 'u', { unicodeFlag: "transform" });
// → 'foo(?:[\\0-\\t\\x0B\\f\\x0E-\\u2027\\u202A-\\uD7FF\\uDC00-\\uFFFF]|[\\uD800-\\uDBFF][\\uDC00-\\uDFFF]|[\\uD800-\\uDBFF])bar'
rewritePattern('[\\u{1D306}-\\u{1D308}a-z]', 'u', { unicodeFlag: "transform" });
// → '(?:[a-z]|\\uD834[\\uDF06-\\uDF08])'
rewritePattern('[\\u{1D306}-\\u{1D308}a-z]', 'ui', { unicodeFlag: "transform" });
// → '(?:[a-z\\u017F\\u212A]|\\uD834[\\uDF06-\\uDF08])'
regexpu-core can rewrite non-ES6 regular expressions too, which is useful to demonstrate how their behavior changes once the u and i flags are added:
// In ES5, the dot operator only matches BMP symbols:
rewritePattern('foo.bar', '', { unicodeFlag: "transform" });
// → 'foo(?:[\\0-\\t\\x0B\\f\\x0E-\\u2027\\u202A-\\uFFFF])bar'
// But with the ES2015 `u` flag, it matches astral symbols too:
rewritePattern('foo.bar', 'u', { unicodeFlag: "transform" });
// → 'foo(?:[\\0-\\t\\x0B\\f\\x0E-\\u2027\\u202A-\\uD7FF\\uDC00-\\uFFFF]|[\\uD800-\\uDBFF][\\uDC00-\\uDFFF]|[\\uD800-\\uDBFF])bar'
The optional options argument recognizes the following properties:
Stable regular expression features
These options can be set to false or 'transform'. When using 'transform', the corresponding features are compiled to older syntax that can run in older browsers. When using false (the default), they are not compiled and they can be relied upon to compile more modern features.
-
unicodeFlag- Theuflag, enabling support for Unicode code point escapes in the form\u{...}.rewritePattern('\\u{ab}', '', { unicodeFlag: 'transform' }); // → '\\u{ab}' rewritePattern('\\u{ab}', 'u', { unicodeFlag: 'transform' }); // → '\\xAB' -
dotAllFlag- Thes(dotAll) flag.rewritePattern('.', '', { dotAllFlag: 'transform' }); // → '[\\0-\\t\\x0B\\f\\x0E-\\u2027\\u202A-\\uFFFF]' rewritePattern('.', 's', { dotAllFlag: 'transform' }); // → '[\\0-\\uFFFF]' rewritePattern('.', 'su', { dotAllFlag: 'transform' }); // → '(?:[\\0-\\uD7FF\\uE000-\\uFFFF]|[\\uD800-\\uDBFF][\\uDC00-\\uDFFF]|[\\uD800-\\uDBFF](?![\\uDC00-\\uDFFF])|(?:[^\\uD800-\\uDBFF]|^)[\\uDC00-\\uDFFF])' -
unicodePropertyEscapes- Unicode property escapes.By default they are compiled to Unicode code point escapes of the form
\u{...}. If theunicodeFlagoption is set to'transform'they often result in larger output, although there are cases (such as\p{Lu}) where it actually decreases the output size.rewritePattern('\\p{Script_Extensions=Anatolian_Hieroglyphs}', 'u', { unicodePropertyEscapes: 'transform' }); // → '[\\u{14400}-\\u{14646}]' rewritePattern('\\p{Script_Extensions=Anatolian_Hieroglyphs}', 'u', { unicodeFlag: 'transform', unicodePropertyEscapes: 'transform' }); // → '(?:\\uD811[\\uDC00-\\uDE46])' -
namedGroups- Named capture groups.rewritePattern('(?<name>.)\\k<name>', '', { namedGroups: 'transform' }); // → '(.)\1' -
unicodeSetsFlag- Thev(unicodeSets) flagrewritePattern('[\\p{Emoji}&&\\p{ASCII}]', 'v', { unicodeSetsFlag: 'transform' }); // → '[#\\*0-9]'By default, patterns with the
vflag are transformed to patterns with theuflag. If you want to downlevel them more you can set theunicodeFlag: 'transform'option.rewritePattern('[^[a-h]&&[f-z]]', 'v', { unicodeSetsFlag: 'transform' }); // → '[^f-h]' (to be used with /u)rewritePattern('[^[a-h]&&[f-z]]', 'v', { unicodeSetsFlag: 'transform', unicodeFlag: 'transform' }); // → '(?:(?![f-h])[\s\S])' (to be used without /u) -
modifiers- Inlinei/m/smodifiersrewritePattern('(?i:[a-z])[a-z]', '', { modifiers: 'transform' }); // → '(?:[a-zA-Z])([a-z])'
Experimental regular expression features
These options can be set to false, 'parse' and 'transform'. When using 'transform', the corresponding features are compiled to older syntax that can run in older browsers. When using 'parse', they are parsed and left as-is in the output pattern. When using false (the default), they result in a syntax error if used.
Once these features become stable (when the proposals are accepted as part of ECMAScript), they will be parsed by default and thus 'parse' will behave like false.
Miscellaneous options
-
onNamedGroupThis option is a function that gets called when a named capture group is found. It receives two parameters: the name of the group, and its index.
rewritePattern('(?<name>.)\\k<name>', '', { onNamedGroup(name, index) { console.log(name, index); // → 'name', 1 } }); -
onNewFlagsThis option is a function that gets called to pass the flags that the resulting pattern must be interpreted with.
rewritePattern('abc', 'um', '', { unicodeFlag: 'transform', onNewFlags(flags) { console.log(flags); // → 'm' } })
Caveats
- Lookbehind assertions cannot be transformed to older syntax.
- When using
namedGroups: 'transform', regexpu-core only takes care of the syntax: you will still need a runtime wrapper around the regular expression to populate the.groupsproperty ofRegExp.prototype.match()'s result. If you are using regexpu-core via Babel, it's handled automatically.
For maintainers
How to publish a new release
-
On the
mainbranch, bump the version number inpackage.json:npm version patch -m 'Release v%s'Instead of
patch, useminorormajoras needed.Note that this produces a Git commit + tag.
-
Push the release commit and tag:
git push --follow-tagsOur CI then automatically publishes the new release to npm.
-
Once the release has been published to npm, update
regexputo make use of it, and cut a new release ofregexpuas well.
Author
 |
|---|
| Mathias Bynens |
License
regexpu-core is available under the MIT license.