# enhanced-resolve

Offers an async require.resolve function. It's highly configurable.

## Features

* plugin system
* provide a custom filesystem
* sync and async node.js filesystems included


## Getting Started
### Install
```sh
# npm
npm install enhanced-resolve
# or Yarn
yarn add enhanced-resolve
```

### Creating a Resolver
The easiest way to create a resolver is to use the `createResolver` function on `ResolveFactory`, along with one of the supplied File System implementations.
```js
const {
  NodeJsInputFileSystem,
  CachedInputFileSystem,
  ResolverFactory
} = require('enhanced-resolve');

// create a resolver
const myResolver = ResolverFactory.createResolver({
  // Typical usage will consume the `NodeJsInputFileSystem` + `CachedInputFileSystem`, which wraps the Node.js `fs` wrapper to add resilience + caching.
  fileSystem: new CachedInputFileSystem(new NodeJsInputFileSystem(), 4000),
  extensions: ['.js', '.json']
  /* any other resolver options here. Options/defaults can be seen below */
});

// resolve a file with the new resolver
const context = {};
const lookupStartPath = '/Users/webpack/some/root/dir';
const request = './path/to-look-up.js';
myResolver.resolve({}, lookupStartPath, request, (err/*Error*/, filepath/*string*/) => {
  // Do something with the path
});
```

For more examples creating different types resolvers (sync/async, context, etc) see `lib/node.js`.
#### Resolver Options
| Field                    | Default                     | Description                                                                        |
| ------------------------ | --------------------------- | ---------------------------------------------------------------------------------- |
| modules                  | ["node_modules"]            | A list of directories to resolve modules from, can be absolute path or folder name |
| descriptionFiles         | ["package.json"]            | A list of description files to read from |
| plugins                  | []                          | A list of additional resolve plugins which should be applied |
| mainFields               | ["main"]                    | A list of main fields in description files |
| aliasFields              | []                          | A list of alias fields in description files |
| mainFiles                | ["index"]                   | A list of main files in directories |
| extensions               | [".js", ".json", ".node"]   | A list of extensions which should be tried for files |
| enforceExtension         | false                       | Enforce that a extension from extensions must be used |
| moduleExtensions         | []                          | A list of module extensions which should be tried for modules |
| enforceModuleExtension   | false                       | Enforce that a extension from moduleExtensions must be used |
| alias                    | []                          | A list of module alias configurations or an object which maps key to value |
| resolveToContext         | false                       | Resolve to a context instead of a file |
| unsafeCache              | false                       | Use this cache object to unsafely cache the successful requests |
| cacheWithContext         | true                        | If unsafe cache is enabled, includes `request.context` in the cache key  |
| cachePredicate           | function() { return true }; | A function which decides whether a request should be cached or not. An object is passed to the function with `path` and `request` properties. |
| fileSystem               |                             | The file system which should be used |
| resolver                 | undefined                   | A prepared Resolver to which the plugins are attached |

## Plugins
Similar to `webpack`, the core of `enhanced-resolve` functionality is implemented as individual plugins that are executed using [`Tapable`](https://github.com/webpack/tapable). These plugins can extend the functionality of the library, adding other ways for files/contexts to be resolved.

A plugin should be a `class` (or its ES5 equivalent) with an `apply` method. The `apply` method will receive a `resolver` instance, that can be used to hook in to the event system.

### Plugin Boilerplate
```js
class MyResolverPlugin {
  constructor(source, target) {
    this.source = source;
    this.target = target;
  }

  apply(resolver) {
    resolver.plugin(this.source, (request, callback) => {
      // Any logic you need to create a new `request` can go here
      resolver.doResolve(this.target, request, null, callback);
    });
  }
}
```

Plugins are executed in a pipeline, and register which event they should be executed before/after. In the example above, `source` is the name of the event that starts the pipeline, and `target` is what event this plugin should fire, which is what continues the execution of the pipeline. For an example of how these different plugin events create a chain, see `lib/ResolverFactory.js`, in the `//// pipeline ////` section.

## Tests

``` javascript
npm test
```

[![Build Status](https://secure.travis-ci.org/webpack/enhanced-resolve.png?branch=master)](http://travis-ci.org/webpack/enhanced-resolve)


## Passing options from webpack
If you are using `webpack`, and you want to pass custom options to `enhanced-resolve`, the options are passed from the `resolve` key of your webpack configuration e.g.:

```
resolve: {
  extensions: ['', '.js', '.jsx'],
  modules: ['src', 'node_modules'],
  plugins: [new DirectoryNamedWebpackPlugin()]
  ...
},
```

## License

Copyright (c) 2012-2016 Tobias Koppers

MIT (http://www.opensource.org/licenses/mit-license.php)