Wotan
Pluggable TypeScript and JavaScript linter
Make sure to also read the full documentation of all available modules.
Quick Start
Install Wotan as a local dependency:
npm install --save-dev @fimbul/wotan
yarn add -D @fimbul/wotan
Add a .wotanrc.yaml
file to the root of your project with the following content:
extends: wotan:recommended
That enables all recommended builtin rules. See the below for a list of available rules and how the configuration works.
Now you can run the linter with one of the following commands depending on your use case:
wotan -p <path/to/tsconfig.json>
wotan 'src/**/*.ts' -e '**/*.d.ts'
wotan --fix
wotan -p tsconfig.json -r
Editor Integration
For instructions how to integrate the linter into your editor, see the documentation of the @fimbul/mithotyn
package.
For Visual Studio Code you can install the official extension.
Available Rules
For a list of available rules, see the documentation of the @fimbul/mimir
package.
Configuration
Wotan is configured with a YAML, JSON5 or JSON file named .wotanrc.yaml
, .wotanrc.json5
or .wotanrc.json
. By default the configuration file from the closest parent folder is used to lint each file.
You can use different configurations for different directories. Consider the following setup:
.wotanrc.yaml
describes the rules that apply to every file and subdirectory (unless they contain a cofiguration file themselves):
---
extends: wotan:recommended
test/.wotanrc.json
extends the base configuration and disables some rules that are not needed for tests:
{
"extends": "../.wotanrc.yaml",
"rules": {
"no-useless-assertion": "off",
"await-only-promise": "warn"
}
}
Note: this describes the default configuration file name and content. Plugin modules are able to override this behavior to read files with different name or content.
Overrides
If you are more into having a single place for configuration, here's an alternative solution for the example above. The .wotanrc.yaml
could look like this:
---
extends: wotan:recommended
rules:
overrides:
- files: "test/**"
rules:
no-useless-assertion: off
await-only-promise: warn
- files: "*.spec.ts"
rules:
no-debugger: off
Overrides are processed in order and applied in order. The latter one overrides all prior overrides.
Note that in the example above *.spec.ts
matches in all directories. Normally patterns are matched relative to the configuration file they are specified in. Patterns without any slash are treated special. They will only be matched against the basename of every file in every directory.
If you want to limit the pattern to the current directory, you can prefix it with ./
resulting in ./*.spec.ts
.
*
also matches the leading do if present, so you don't need a second glob pattern for dotfiles. That means *.spec.ts
matches .some.spec.ts
as well as some.spec.ts
.
Configuring Rules
Rules can have one of 4 different severities: error
, warning
(or warn
), suggestion
(or hint
) and off
.
error
is reported and causes the process to end with an exit code of 2. This is the default if not specified.
warning
is reported but doesn't cause a non-zero exit code.
suggestion
treated like warning
but displayed differently.
off
turns the rule off, of course.
Configurable rules get their options through an object. The content of the "options"
property varies based on the rule.
{
"rules": {
"some-rule": {
"severity": "error",
"options": {
"some-option": "some-option-value"
}
}
}
}
severity
and options
are both optional. That allows you to extend a configuration and only change the severity of a rule without altering the options. Or you can change the rule's options without changing the severity inherited by the base config.
Display Configuration
If the linter behaves somehow unexpected, it's probably because you configured it that way.
You're lucky because there's a builtin command to diagnose this, so you don't need to know how the configuration file lookup and the handling of overrides, excludes and aliases works in detail.
Just use wotan show <filename>
to display the configuration file and the exact rule config used to lint this file. If there is no file found or the file is excluded, you will see that too.
Sometimes you need to enable or disable a specific rule or all rules for a section of a file. This can be done using comments. It doesn't matter if you use //
or /* */
. Multiple rule names are separated by comma.
It's not possible to enable a rule with a comment if that rule is not already enabled in the configuration for that file. That means comments can only enable rules that were previously disabled by a comment.
// wotan-disable
disables all rules from the start of the comment until the end of the file (or until it is enabled again)// wotan-enable
enables all rules from the start of the comment until the end of the file. Enable comments have the same mechanics as disable comments.// wotan-disable-line
disables all rules in the current line (also works with enable)// wotan-disable-next-line
disables all rules in the next line (also works with enable)// wotan-disable-next-line bar, local/baz
disables the rules bar
and local/baz
in the next line// wotan-enable-line foo
enables the rule foo
in the current line// wotan-enable-next-line bar, local/baz
enables the rules bar
and local/baz
in the next line
This is the default behavior which can be overridden by plugin modules.
To detect unused or redundant comments you can use the --report-useless-directives
CLI option.
CLI Options
-c --config <name>
specifies the configuration to use for all files instead of looking for configuration files in parent directories. This can either be a file name, the name of a node module containing a shareable config, or the name of a builtin config like wotan:recommended
-e --exclude <glob>
excludes all files that match the given glob pattern from linting. This option can be used multiple times to specify multiple patterns. For example -e '**/*.js' -e '**/*.d.ts'
. It is recommended to wrap the glob patterns in single quotes to prevent the shell from expanding them.--fix [true|false|number]
automatically fixes all fixable findings in your code and writes the result back to disk. Given a number it will at most use the specified number of iterations for fixing before returning the result. There are some precautions to prevent overlapping fixes from destroying you code. You should however commit your changes before using this feature. Files containing syntax errors are never fixed. If applying fixes would cause syntax errors, the fixes will not be applied.-f --formatter <name>
the name or path of a formatter. This can either be a file name, the name of a node module contianing a formatter, or the name of a builtin formatter. Currently available builtin formatters are json
and stylish
(default).-m --module <name>
specifies one or more packages with DI modules to load before starting the actual linter. These modules can be used to override the default behavior.-p --project <name>
specifies the path to the tsconfig.json
file to use. This option is used to find all files contained in your project. It also enables rules that require type information. This option can be used multiple times to specify multiple projects to lint.-r --references [true|false]
enables project references. Starting from the project specified with -p --project
or the tsconfig.json
in the current directory it will recursively follow all "references"
and lint those projects.--report-useless-directives [true|false|error|warning|suggestion]
reports // wotan-disable
and // wotan-enable
comments that are redundant (i.e. rules are already disabled) or unused (there are no findings for the specified rules). Useless directives are reported as lint findings with the specified severity (true
is converted to error
). Those findings cannot be disabled by a disable comment. The findings are fixable which allow autofixing when used with the --fix
option.--cache
enables caching of lint results for projects. Can only be used with -p --project
option. Read more about caching.[...FILES]
specifies the files to lint. You can specify paths and glob patterns here.
Note that all file paths are relative to the current working directory. Therefore **/*.ts
doesn't match ../foo.ts
.
Examples
The following examples are intended to be used as npm scripts. If you want to execute it directly on the command line, you need to use ./node_modules/.bin/wotan
instead of just wotan
.
wotan
wotan -c wotan:recommended
wotan -c wotan:recommended --fix
wotan '**/*.ts' -e '**/*.d.ts' -e 'node_modules/**'
wotan -p .
wotan -p . 'src/**'
wotan -p src -p test
wotan -p . -r
wotan -m @fimbul/heimdall
Adding CLI defaults to .fimbullinter.yaml
If you find yourself using Wotan with the same CLI arguments over and over again, you can simply save them as defaults to a file called .fimbullinter.yaml
. By default Wotan uses this file for CLI defaults if it's present in your current working directory.
There's a subcommand to create and update this file, so you don't need to know any implementation details to guess the file structure.
Let's assume you always use the following CLI arguments:
wotan -p tsconfig.build.json -c config/.wotanrc.yaml -e '**/*.d.ts'
To save these as defaults, simply use the save
subcommand:
wotan save -p tsconfig.build.json -c config/.wotanrc.yaml -e '**/*.d.ts'
You just created a .fimbullinter.yaml
file with the following contents:
config: config/.wotanrc.yaml
exclude:
- "**/*.d.ts"
project: tsconfig.build.json
The next time you execute wotan
in that directory, this default configuration is automatically picked up.
Defaults can be overridden or cleared by explicitly specifying them as CLI arguments, for example:
wotan -p tsconfig.json -e ''
wotan save -c ''
Note that .fimbullinter.yaml
can also be used to store configuration for plugin modules. See the documentation of the plugins you use if this applies to you. In that case you need to edit the file manually. Using wotan save
will not alter third party configuration.
Linting with Type Information
When linting a project (--project
CLI option) rules are able to use type information using TypeScript's API. Some rules report more findings with type information, some other rules require type information for each of their checks.
If a rule cannot work properly without type information, you will see a warning like Rule 'foo' requires type information.
Special Handling of JavaScript Files
TypeScript can analyze and check JavaScript files. However, it only does this if you explicitly ask for it using "allowJs": true, "checkJs": true
in your tsconfig.json
or by adding a // @ts-check
comment on top of your JS files.
A // @ts-nocheck
comment excludes a file from type checking.
More information is available in the official TypeScript Handbook: Type Checking JavaScript Files.
Wotan respects these flags, too. That means it will not provide type information to rules executed on unchecked JS files.
This ensures you won't get surprising lint findings caused by funky type inference in those files.
You will still get reports for purely syntactic findings, i.e. rules that don't require type information.
Caching
Caching is done per project. Hence it requires type information. For every tsconfig.json
it creates a tsconfig.fimbullintercache
file that contains the state of the previous run.
The content of this file is not intended for use by other tools. All cache information is relative to the project directory. That means the cache can be checked into your VCS and reused by CI or your collegues.
If a cache is available for a given project, Wotan can avoid linting files that are known to be unchanged. This can significantly reduce execution time.
A file is treated as outdated and therefore linted if one of the following is true:
- TypeScript version changed
- compilerOptions changed
- added, removed or outdated files that affect the global scope
- linter configuration for the file changed
- file has no cached lint result
- file content changed
- module resolution of imports or exports has changed
- dependency is added or removed
- ambient module or module augmentation is added, removed
- dependency is outdated
- if compilerOption
assumeChangesOnlyAffectDirectDependencies
is enabled, only checks direct dependencies - otherwise recursively checks all transitive dependencies
The following cases don't work well with caching:
- rules accessing the file system or environment variables
- rules accessing other files in the project that are not global or dependencies of the current file
- linting the same project with different configurations -> only use caching for one of the configurations
- projects where all files are in the global scope
- updating the linter, rules or their (transitive) dependencies -> you need to manually remove the cache if you expect it to affect the lint result
Excluded Files
If type information is available Wotan excludes all files you haven't written yourself. The following files are always excluded so you cannot explicitly include them:
- any files of dependencies in
node_modules
(unless imported using a relative path, e.g. ./node_modules/foo/index
) - declaration files from
@types
(or typeRoots
declared in your tsconfig.json
) - declaration files included by TypeScript, e.g.
lib.es5.d.ts
- declaration files of project references (
references
in tsconfig.json
)
This is the default behavior which can be overridden by plugin modules.
If you lint individual files without type information using the file's path or a glob pattern, you are responsible for excluding all files you don't want to lint.
Diagnosing Misbehavior
Catching bugs by just looking at an exception is hard. That's why Wotan produces debug output for certain events. You only need to enable it via environment variable DEBUG=wotan:*
and run the previous command again.
See the detailed documentation on how to use the wildcards.
License
Apache-2.0 © Klaus Meinhardt