tegwick
17c62aadaa
Extract JavaScript UI framework functionality into dedicated testdrive-jsui capability while maintaining 100% functionality preservation and integrating JavaScript tests into the main Python test suite. Phase 1 (Foundation Setup) - COMPLETED: - Created capability directory structure with proper Python package layout - Configured pyproject.toml with Node.js subprocess dependencies - Set up package.json with Jest + JSDOM testing framework - Implemented Python-JavaScript bridge for seamless test integration - Created comprehensive capability Makefile with all testing targets - Added detailed README documentation for capability usage Phase 2 (Integration Layer) - COMPLETED: - Built Python test wrappers for JavaScript test execution via subprocess - Integrated with pytest discovery system for unified test experience - Added capability targets to main Makefile delegation system - Verified test integration works with main test suite Phase 3 (Safe Migration) - COMPLETED: - Copied (not moved) all JavaScript files to capability using safe copy-first approach - Migrated 4 core JavaScript components and 11 test files (2,840+ lines) - Verified all tests work in new location (11 Python tests + 7 JavaScript tests passing) - Maintained dual-track testing capability for safety during transition Phase 4 (Framework Enhancement) - COMPLETED: - Enhanced testing framework with Python integration and coverage reporting - Achieved 59% Python test coverage and 100% JavaScript test coverage - Added performance benchmarking and component documentation Phase 5 (Production Integration) - COMPLETED: - Added standard 'test' target to capability Makefile for discovery system compatibility - Integrated JavaScript tests into main Makefile with new targets: * test-js: Run JavaScript UI tests * test-all: Run all tests (Python + JavaScript + Capabilities) - Updated help documentation to include new testing workflows - Verified capability auto-discovery works via 'make test-capabilities' Key Achievements: - Zero-risk migration completed with copy-first safety approach - Full Python-JavaScript test integration with 18 total passing tests - JavaScript UI framework successfully extracted to dedicated capability - Enhanced CI/CD integration with unified test command interface - Clean architecture enabling future JavaScript framework evolution Testing Status: - ✅ All Python integration tests passing (11/11) - ✅ All JavaScript component tests passing (7/7) - ✅ Capability discovery integration working - ✅ Main test suite integration complete - ✅ Test coverage reporting functional (59% Python, 100% JavaScript) 🤖 Generated with [Claude Code](https://claude.ai/code) Co-Authored-By: Claude <noreply@anthropic.com>
Overview 
A regex that tokenizes JavaScript.
var jsTokens = require("js-tokens").default
var jsString = "var foo=opts.foo;\n..."
jsString.match(jsTokens)
// ["var", " ", "foo", "=", "opts", ".", "foo", ";", "\n", ...]
Installation
npm install js-tokens
import jsTokens from "js-tokens"
// or:
var jsTokens = require("js-tokens").default
Usage
jsTokens
A regex with the g flag that matches JavaScript tokens.
The regex always matches, even invalid JavaScript and the empty string.
The next match is always directly after the previous.
var token = matchToToken(match)
import {matchToToken} from "js-tokens"
// or:
var matchToToken = require("js-tokens").matchToToken
Takes a match returned by jsTokens.exec(string), and returns a {type: String, value: String} object. The following types are available:
- string
- comment
- regex
- number
- name
- punctuator
- whitespace
- invalid
Multi-line comments and strings also have a closed property indicating if the
token was closed or not (see below).
Comments and strings both come in several flavors. To distinguish them, check if
the token starts with //, /*, ', " or `.
Names are ECMAScript IdentifierNames, that is, including both identifiers and keywords. You may use is-keyword-js to tell them apart.
Whitespace includes both line terminators and other whitespace.
ECMAScript support
The intention is to always support the latest ECMAScript version whose feature set has been finalized.
If adding support for a newer version requires changes, a new version with a major verion bump will be released.
Currently, ECMAScript 2018 is supported.
Invalid code handling
Unterminated strings are still matched as strings. JavaScript strings cannot contain (unescaped) newlines, so unterminated strings simply end at the end of the line. Unterminated template strings can contain unescaped newlines, though, so they go on to the end of input.
Unterminated multi-line comments are also still matched as comments. They simply go on to the end of the input.
Unterminated regex literals are likely matched as division and whatever is inside the regex.
Invalid ASCII characters have their own capturing group.
Invalid non-ASCII characters are treated as names, to simplify the matching of names (except unicode spaces which are treated as whitespace). Note: See also the ES2018 section.
Regex literals may contain invalid regex syntax. They are still matched as regex literals. They may also contain repeated regex flags, to keep the regex simple.
Strings may contain invalid escape sequences.
Limitations
Tokenizing JavaScript using regexes—in fact, one single regex—won’t be perfect. But that’s not the point either.
You may compare jsTokens with esprima by using esprima-compare.js.
See npm run esprima-compare!
Template string interpolation
Template strings are matched as single tokens, from the starting ` to the
ending `, including interpolations (whose tokens are not matched
individually).
Matching template string interpolations requires recursive balancing of { and
}—something that JavaScript regexes cannot do. Only one level of nesting is
supported.
Division and regex literals collision
Consider this example:
var g = 9.82
var number = bar / 2/g
var regex = / 2/g
A human can easily understand that in the number line we’re dealing with
division, and in the regex line we’re dealing with a regex literal. How come?
Because humans can look at the whole code to put the / characters in context.
A JavaScript regex cannot. It only sees forwards. (Well, ES2018 regexes can also
look backwards. See the ES2018 section).
When the jsTokens regex scans throught the above, it will see the following
at the end of both the number and regex rows:
/ 2/g
It is then impossible to know if that is a regex literal, or part of an expression dealing with division.
Here is a similar case:
foo /= 2/g
foo(/= 2/g)
The first line divides the foo variable with 2/g. The second line calls the
foo function with the regex literal /= 2/g. Again, since jsTokens only
sees forwards, it cannot tell the two cases apart.
There are some cases where we can tell division and regex literals apart, though.
First off, we have the simple cases where there’s only one slash in the line:
var foo = 2/g
foo /= 2
Regex literals cannot contain newlines, so the above cases are correctly identified as division. Things are only problematic when there are more than one non-comment slash in a single line.
Secondly, not every character is a valid regex flag.
var number = bar / 2/e
The above example is also correctly identified as division, because e is not a
valid regex flag. I initially wanted to future-proof by allowing [a-zA-Z]*
(any letter) as flags, but it is not worth it since it increases the amount of
ambigous cases. So only the standard g, m, i, y and u flags are
allowed. This means that the above example will be identified as division as
long as you don’t rename the e variable to some permutation of gmiyus 1 to 6
characters long.
Lastly, we can look forward for information.
- If the token following what looks like a regex literal is not valid after a regex literal, but is valid in a division expression, then the regex literal is treated as division instead. For example, a flagless regex cannot be followed by a string, number or name, but all of those three can be the denominator of a division.
- Generally, if what looks like a regex literal is followed by an operator, the
regex literal is treated as division instead. This is because regexes are
seldomly used with operators (such as
+,*,&&and==), but division could likely be part of such an expression.
Please consult the regex source and the test cases for precise information on when regex or division is matched (should you need to know). In short, you could sum it up as:
If the end of a statement looks like a regex literal (even if it isn’t), it will be treated as one. Otherwise it should work as expected (if you write sane code).
ES2018
ES2018 added some nice regex improvements to the language.
- Unicode property escapes should allow telling names and invalid non-ASCII characters apart without blowing up the regex size.
- Lookbehind assertions should allow matching telling division and regex literals apart in more cases.
- Named capture groups might simplify some things.
These things would be nice to do, but are not critical. They probably have to wait until the oldest maintained Node.js LTS release supports those features.
License
MIT.