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Architecture |
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At a high level, there are a few key parts to ESLint:
bin/eslint.js
- this is the file that actually gets executed with the command line utility. It's a dumb wrapper that does nothing more than bootstrap ESLint, passing the command line arguments tocli
. This is intentionally small so as not to require heavy testing.lib/api.js
- this is the entry point ofrequire("eslint")
. This file exposes an object that contains public classesLinter
,ESLint
,RuleTester
, andSourceCode
.lib/cli.js
- this is the heart of the ESLint CLI. It takes an array of arguments and then useseslint
to execute the commands. By keeping this as a separate utility, it allows others to effectively call ESLint from within another Node.js program as if it were done on the command line. The main call iscli.execute()
. This is also the part that does all the file reading, directory traversing, input, and output.lib/cli-engine/
- this module isCLIEngine
class that finds source code files and configuration files then does code verifying with theLinter
class. This includes the loading logic of configuration files, parsers, plugins, and formatters.lib/linter/
- this module is the coreLinter
class that does code verifying based on configuration options. This file does no file I/O and does not interact with theconsole
at all. For other Node.js programs that have JavaScript text to verify, they would be able to use this interface directly.lib/rule-tester/
- this module isRuleTester
class that is a wrapper around Mocha so that rules can be unit tested. This class lets us write consistently formatted tests for each rule that is implemented and be confident that each of the rules work. The RuleTester interface was modeled after Mocha and works with Mocha's global testing methods. RuleTester can also be modified to work with other testing frameworks.lib/source-code/
- this module isSourceCode
class that is used to represent the parsed source code. It takes in source code and the Program node of the AST representing the code.lib/rules/
- this contains built-in rules that verify source code.
The cli
object is the API for the command line interface. Literally, the bin/eslint.js
file simply passes arguments to the cli
object and then sets process.exitCode
to the returned exit code.
The main method is cli.execute()
, which accepts an array of strings that represent the command line options (as if process.argv
were passed without the first two arguments). If you want to run ESLint from inside of another program and have it act like the CLI, then cli
is the object to use.
This object's responsibilities include:
- Interpreting command line arguments
- Reading from the file system
- Outputting to the console
- Outputting to the filesystem
- Use a formatter
- Returning the correct exit code
This object may not:
- Call
process.exit()
directly - Perform any asynchronous operations
The CLIEngine
type represents the core functionality of the CLI except that it reads nothing from the command line and doesn't output anything by default. Instead, it accepts many (but not all) of the arguments that are passed into the CLI. It reads both configuration and source files as well as managing the environment that is passed into the Linter
object.
The main method of the CLIEngine
is executeOnFiles()
, which accepts an array of file and directory names to run the linter on.
This object's responsibilities include:
- Managing the execution environment for
Linter
- Reading from the file system
- Reading configuration information from config files (including
.eslintrc
andpackage.json
)
This object may not:
- Call
process.exit()
directly - Perform any asynchronous operations
- Output to the console
- Use formatters
The main method of the Linter
object is verify()
and accepts two arguments: the source text to verify and a configuration object (the baked configuration of the given configuration file plus command line options). The method first parses the given text with espree
(or whatever the configured parser is) and retrieves the AST. The AST is produced with both line/column and range locations which are useful for reporting location of issues and retrieving the source text related to an AST node, respectively.
Once the AST is available, estraverse
is used to traverse the AST from top to bottom. At each node, the Linter
object emits an event that has the same name as the node type (i.e., "Identifier", "WithStatement", etc.). On the way back up the subtree, an event is emitted with the AST type name and suffixed with ":exit", such as "Identifier:exit" - this allows rules to take action both on the way down and on the way up in the traversal. Each event is emitted with the appropriate AST node available.
This object's responsibilities include:
- Inspecting JavaScript code strings
- Creating an AST for the code
- Executing rules on the AST
- Reporting back the results of the execution
This object may not:
- Call
process.exit()
directly - Perform any asynchronous operations
- Use Node.js-specific features
- Access the file system
- Call
console.log()
or any other similar method
Individual rules are the most specialized part of the ESLint architecture. Rules can do very little, they are simply a set of instructions executed against an AST that is provided. They do get some context information passed in, but the primary responsibility of a rule is to inspect the AST and report warnings.
These objects' responsibilities are:
- Inspect the AST for specific patterns
- Reporting warnings when certain patterns are found
These objects may not:
- Call
process.exit()
directly - Perform any asynchronous operations
- Use Node.js-specific features
- Access the file system
- Call
console.log()
or any other similar method