Tools for building custom lint rules.


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You can read the latest blog post or watch the advanced use case with custom_lint video.


Lint rules are a powerful way to improve the maintainability of a project. The more, the merrier! But while Dart offers a wide variety of lint rules by default, it cannot reasonably include every possible lint. For example, Dart does not include lints related to third-party packages.

Custom_lint fixes that by allowing package authors to write custom lint rules.

Custom_lint is similar to analyzer_plugin, but goes deeper by trying to provide a better developer experience.

That includes:

  • A command-line to obtain the list of lints in your CI without having to write a command line yourself.
  • A simplified project setup: No need to deal with the analyzer server or error handling. Custom_lint takes care of that for you, so that you can focus on writing lints.
  • Debugger support. Inspect your lints using the Dart debugger and place breakpoints.
  • Supports hot-reload/hot-restart: Updating the source code of a linter plugin will dynamically restart it, without having to restart your IDE/analyzer server.
  • Built-in support for // ignore: and // ignore_for_file:.
  • Built-in testing mechanism using // expect_lint. See Testing your plugins using expect_lint
  • Support for print(...) and exceptions: If your plugin somehow throws or print debug messages, custom_lint will generate a log file with the messages/errors.


Using custom_lint is split in two parts:

  • how to define a custom_lint package
  • how users can install our package in their application to see our newly defined lints

Creating a custom lint package

To create a custom lint, you will need two things:

  • updating your pubspec.yaml to include custom_lint_builder as a dependency:

    # pubspec.yaml
    name: my_custom_lint_package
      sdk: ">=2.16.0 <3.0.0"
      # we will use analyzer for inspecting Dart files
      # custom_lint_builder will give us tools for writing lints
  • create a lib/<my_package_name>.dart file in your project with the following:

    // This is the entrypoint of our custom linter
    PluginBase createPlugin() => _ExampleLinter();
    /// A plugin class is used to list all the assists/lints defined by a plugin.
    class _ExampleLinter extends PluginBase {
      /// We list all the custom warnings/infos/errors
      List<LintRule> getLintRules(CustomLintConfigs configs) => [
    class MyCustomLintCode extends DartLintRule {
      MyCustomLintCode() : super(code: _code);
      /// Metadata about the warning that will show-up in the IDE.
      /// This is used for `// ignore: code` and enabling/disabling the lint
      static const _code = LintCode(
        name: 'my_custom_lint_code',
        problemMessage: 'This is the description of our custom lint',
      void run(
        CustomLintResolver resolver,
        ErrorReporter reporter,
        CustomLintContext context,
      ) {
        // Our lint will highlight all variable declarations with our custom warning.
        context.registry.addVariableDeclaration((node) {
          // "node" exposes metadata about the variable declaration. We could
          // check "node" to show the lint only in some conditions.
          // This line tells custom_lint to render a waring at the location of "node".
          // And the warning shown will use our `code` variable defined above as description.
          reporter.reportErrorForNode(code, node);

That's it for defining a custom lint package!

If you're looking for a more advanced example, see the example. This example implements:

  • a lint appearing on all variables of a specific type
  • a quick fix for that lint
  • an "assist" for providing refactoring options.

Let's now use it in an application.

Using our custom lint package in an application

For users to run custom_lint packages, there are a few steps:

  • The application must contain an analysis_options.yaml with the following:

        - custom_lint
  • The application also needs to add custom_lint and our package(s) as dev dependency in their application:

    # The pubspec.yaml of an application using our lints
    name: example_app
      sdk: ">=2.16.0 <3.0.0"

That's all! After running pub get (and possibly restarting their IDE), users should now see our custom lints in their Dart files:

screenshot of our custom lints in the IDE

Enabling/disabling and configuring lints

By default, custom_lint enables all installed lints.
But chances are you may want to disable one specific lint, or alternatively, disable all lints besides a few.

This configuration is done in your analysis_options.yaml, but in a slightly different manner.

Configurations are placed within a custom_lint object, as followed:

    - custom_lint

    - my_lint_rule: false # disable this rule

As mentioned before, all lints are enabled by default.

  # Disable all lints by default
  enable_all_lint_rules: false
    - my_lint_rule # only enable my_lint_rule

If you want to change this, you can optionally disable all lints by default:

Last but not least, some lint rules may be configurable. When a lint is configurable, you can configure it in the same place with:

    - my_lint_rule:
      some_parameter: "some value"

Obtaining the list of lints in the CI

Unfortunately, running dart analyze does not pick up our newly defined lints. We need a separate command for this.

To do that, users of our custom lint package can run the following inside their terminal:

$ dart run custom_lint
  lib/main.dart:0:0 • This is the description of our custom lint • my_custom_lint_code

If you are working on a Flutter project, run flutter pub run custom_lint instead.

Using the Dart debugger

To debug plugins in custom_lint, you need to connect to plugins using "attach" mode in your IDE (cmd+shift+p + Debug: attach to Dart process in VSCode).

When using this command, you will need a VM service URI provided by custom_lint.

There are two possible ways to obtain one:

  • if you started your plugin using custom_lint --watch, it should be visible in the console output.
  • if your plugin is started by your IDE, you can open the custom_lint.log file that custom_lint created next to the pubspec.yaml of your analyzed projects.

In both cases, what you're looking for is logs similar to:

The Dart VM service is listening on
The Dart DevTools debugger and profiler is available at:

What you'll want is the first URI. In this example, that is You can then pass this to your IDE, which should now be able to attach to the plugin.

Testing your plugins using expect_lint

Custom_lint comes with an official testing mechanism for asserting that your plugins correctly work.

Testing your plugins is straightforward: Simply write a file that should contain lints from your plugin (such as the example folder). Then, using a syntax similar to // ignore, write a // expect_lint: code in the line before your lint:

// expect_lint: riverpod_final_provider
var provider = Provider(...);

When doing this, there are two possible cases:

  • The line after the expect_lint correctly contains the expected lint. In that case, the lint is ignored (similarly to if we used // ignore)
  • The next line does not contain the lint. In that case, the expect_lint comment will have an error.

This allows testing your plugins by simply running custom_lint on your test/example folder. Then, if any expected lint is missing, the command will fail. But if your plugin correctly emits the lint, the command will succeed.

Built and maintained by Invertase.