To get up and running, install the dependencies and run the tests:
yarn
yarn test
The tests use Jest snapshots. You can make changes and run jest -u
(or yarn test -u
) to update the snapshots. Then run git diff
to take a look at what changed. Always update the snapshots when opening a PR.
Each test directory in tests
has a jsfmt.spec.js
file that controls how exactly the rest of the files in the directory are used for tests. This file must contain one or more calls to the run_spec
global function. For example, in directories with JavaScript formatting tests, jsfmt.spec.js
generally looks like this:
run_spec(__dirname, ["babel", "flow", "typescript"]);
This verifies that for each file in the directory, the output matches the snapshot and is the same for each listed parser.
You can also pass options as the third argument:
run_spec(__dirname, ["babel"], { trailingComma: "es5" });
Signature:
function run_spec(
fixtures:
| string
| {
dirname: string;
snippets?: Array<
| string
| { code: string; name?: string; filename?: string; output?: string }
>;
},
parsers: string[],
options?: PrettierOptions & {
errors: true | { [parserName: string]: true | string[] };
}
): void;
Parameters:
fixtures
: Must be set to__dirname
or to an object of the shape{ dirname: __dirname, ... }
. The object may have thesnippets
property to specify an array of extra input entries in addition to the files in the current directory. For each input entry (a file or a snippet),run_spec
configures and runs a number of tests. The main check is that for a given input the output should match the snapshot (for snippets, the expected output can also be specified directly). Additional checks are controlled by options and environment variables.parsers
: A list of parser names. The tests verify that the parsers in this list produce the same output. If the list includestypescript
, thenbabel-ts
is included implicitly. If the list includesbabel
, and the current directory is insidetests/js
, thenespree
andmeriyah
are included implicitly.options
: In addition to Prettier's formatting option, can contain theerrors
property to specify that it's expected that the formatting shouldn't be successful and an error should be thrown for all (errors: true
) or some combinations of input entries and parsers.
The implementation of run_spec
can be found in tests_config/run_spec.js
.
tests/flow-repo/
contains the Flow test suite and is not supposed to be edited by hand. To update it, clone the Flow repo next to the Prettier repo and run: node scripts/sync-flow-tests.js ../flow/tests/
.
To debug Prettier locally, you can either debug it in Node (recommended) or the browser.
- The easiest way to debug it in Node is to create a local test file with some example code you want formatted and either run it in an editor like VS Code or run it directly via
./bin/prettier.js <your_test_file>
. - The easiest way to debug it in the browser is to build Prettier's website locally (see
website/README.md
).
The project uses ESLint for linting and Prettier for formatting. If your editor isn't set up to work with them, you can lint and format all files from the command line using yarn fix
.
After opening a PR, describe your changes in a file in the changelog_unreleased
directory following the template changelog_unreleased/TEMPLATE.md
and commit this file to your PR.
Take a look at commands.md
and, if you know Haskell, check out Wadler's paper to understand how Prettier works.
If you want to know more about Prettier's GitHub labels, see the Issue Labels page on the Wiki.
If you're contributing a performance improvement, the following Prettier CLI options can help:
--debug-repeat N
uses a naïve loop to repeat the formattingN
times and measures the average run duration. It can be useful to highlight hot functions in the profiler. The measurements are printed at the debug log level, use--loglevel debug
to see them.--debug-benchmark
usesbenchmark
module to produce statistically significant duration measurements. The measurements are printed at the debug log level, use--loglevel debug
to see them.
For convenience, the following commands for profiling are available via package.json
scripts
.
Unfortunately, yarn
simply appends passed arguments to commands, cannot reference them by name, so we have to use inline environment variables to pass them.
PERF_FILE=<filename> PERF_REPEAT=[number-of-repetitions:1000] yarn perf:repeat
starts the naïve loop. See the CLI output for when the measurements finish, and stop profiling at that moment.PERF_FILE=<filename> PERF_REPEAT=[number-of-repetitions:1000] yarn perf:repeat-inspect
starts the naïve loop withnode --inspect-brk
flag that pauses execution and waits for Chromium/Chrome/Node Inspector to attach. Openchrome://inspect
, select the process to inspect, and activate the CPU Profiler, this will unpause execution. See the CLI output for when the measurements finish, and stop the CPU Profiler at that moment to avoid collecting more data than needed.PERF_FILE=<filename> yarn perf:benchmark
starts thebenchmark
-powered measurements. See the CLI output for when the measurements finish.
In the above commands:
yarn && yarn build
ensures the compiler-optimized version of Prettier is built prior to launching it. Prettier's own environment checks are defaulted to production and removed during the build. The build output is cached, so a rebuild will happen only if the source code changes.NODE_ENV=production
ensures Prettier and its dependencies run in production mode.node --inspect-brk
pauses the script execution until Inspector is connected to the Node process.--loglevel debug
ensures the--debug-repeat
or--debug-benchmark
measurements are printed tostderr
.> /dev/null
ensures the formatted output is discarded.
In addition to the options above, you can use node --prof
and node --prof-process
, as well as node --trace-opt --trace-deopt
, to get more advanced performance insights.
We have a cool tool for regression testing that runs on GitHub Actions. Have a look: https://github.com/prettier/prettier-regression-testing
You can run FULL_TEST=1 jest
for a more robust test run, which includes the following additional checks:
- compare AST - re-parses the output and makes sure the new AST is equivalent to the original one.
- second format - formats the output again and checks that the second output is the same as the first.
- EOL '\r\n' and EOL '\r' - check that replacing line endings with
\r\n
or\r
in the input doesn't affect the output. - BOM - checks that adding BOM (
U+FEFF
) to the input affects the output in only one way: the BOM is preserved.
Usually there is no need to run these extra checks locally, since they're run on the CI anyway.