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## Modules
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Node has a simple module loading system. In Node, files and modules are in
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one-to-one correspondence. As an example, `foo.js` loads the module
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`circle.js` in the same directory.
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The contents of `foo.js`:
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var circle = require('./circle.js');
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console.log( 'The area of a circle of radius 4 is '
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+ circle.area(4));
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The contents of `circle.js`:
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var PI = Math.PI;
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exports.area = function (r) {
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return PI * r * r;
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};
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exports.circumference = function (r) {
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return 2 * PI * r;
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};
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The module `circle.js` has exported the functions `area()` and
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`circumference()`. To export an object, add to the special `exports`
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object.
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Variables
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local to the module will be private. In this example the variable `PI` is
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private to `circle.js`.
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### Core Modules
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Node has several modules compiled into the binary. These modules are
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described in greater detail elsewhere in this documentation.
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The core modules are defined in node's source in the `lib/` folder.
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Core modules are always preferentially loaded if their identifier is
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passed to `require()`. For instance, `require('http')` will always
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return the built in HTTP module, even if there is a file by that name.
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### File Modules
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If the exact filename is not found, then node will attempt to load the
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required filename with the added extension of `.js`, and then `.node`.
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`.js` files are interpreted as JavaScript text files, and `.node` files
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are interpreted as compiled addon modules loaded with `dlopen`.
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A module prefixed with `'/'` is an absolute path to the file. For
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example, `require('/home/marco/foo.js')` will load the file at
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`/home/marco/foo.js`.
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A module prefixed with `'./'` is relative to the file calling `require()`.
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That is, `circle.js` must be in the same directory as `foo.js` for
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`require('./circle')` to find it.
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Without a leading '/' or './' to indicate a file, the module is either a
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"core module" or is loaded from a `node_modules` folder.
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### Loading from `node_modules` Folders
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If the module identifier passed to `require()` is not a native module,
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and does not begin with `'/'`, `'../'`, or `'./'`, then node starts at the
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parent directory of the current module, and adds `/node_modules`, and
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attempts to load the module from that location.
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If it is not found there, then it moves to the parent directory, and so
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on, until either the module is found, or the root of the tree is
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reached.
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For example, if the file at `'/home/ry/projects/foo.js'` called
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`require('bar.js')`, then node would look in the following locations, in
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this order:
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* `/home/ry/projects/node_modules/bar.js`
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* `/home/ry/node_modules/bar.js`
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* `/home/node_modules/bar.js`
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* `/node_modules/bar.js`
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This allows programs to localize their dependencies, so that they do not
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clash.
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#### Optimizations to the `node_modules` Lookup Process
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When there are many levels of nested dependencies, it is possible for
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these file trees to get fairly long. The following optimizations are thus
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made to the process.
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First, `/node_modules` is never appended to a folder already ending in
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`/node_modules`.
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Second, if the file calling `require()` is already inside a `node_modules`
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hierarchy, then the top-most `node_modules` folder is treated as the
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root of the search tree.
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For example, if the file at
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`'/home/ry/projects/foo/node_modules/bar/node_modules/baz/quux.js'`
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called `require('asdf.js')`, then node would search the following
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locations:
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* `/home/ry/projects/foo/node_modules/bar/node_modules/baz/node_modules/asdf.js`
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* `/home/ry/projects/foo/node_modules/bar/node_modules/asdf.js`
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* `/home/ry/projects/foo/node_modules/asdf.js`
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### Folders as Modules
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It is convenient to organize programs and libraries into self-contained
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directories, and then provide a single entry point to that library.
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There are three ways in which a folder may be passed to `require()` as
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an argument.
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The first is to create a `package.json` file in the root of the folder,
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which specifies a `main` module. An example package.json file might
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look like this:
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{ "name" : "some-library",
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"main" : "./lib/some-library.js" }
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If this was in a folder at `./some-library`, then
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`require('./some-library')` would attempt to load
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`./some-library/lib/some-library.js`.
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This is the extent of Node's awareness of package.json files.
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If there is no package.json file present in the directory, then node
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will attempt to load an `index.js` or `index.node` file out of that
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directory. For example, if there was no package.json file in the above
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example, then `require('./some-library')` would attempt to load:
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* `./some-library/index.js`
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* `./some-library/index.node`
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### Caching
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Modules are cached after the first time they are loaded. This means
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(among other things) that every call to `require('foo')` will get
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exactly the same object returned, if it would resolve to the same file.
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### module.exports
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The `exports` object is created by the Module system. Sometimes this is not
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acceptable, many want their module to be an instance of some class. To do this
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assign the desired export object to `module.exports`. For example suppose we
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were making a module called `a.js`
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var EventEmitter = require('events').EventEmitter;
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module.exports = new EventEmitter();
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// Do some work, and after some time emit
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// the 'ready' event from the module itself.
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setTimeout(function() {
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module.exports.emit('ready');
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}, 1000);
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Then in another file we could do
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var a = require('./a');
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a.on('ready', function() {
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console.log('module a is ready');
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});
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Note that assignment to `module.exports` must be done immediately. It cannot be
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done in any callbacks. This does not work:
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x.js:
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setTimeout(function() {
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module.exports = { a: "hello" };
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}, 0);
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y.js
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var x = require('./x');
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console.log(x.a);
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### All Together...
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To get the exact filename that will be loaded when `require()` is called, use
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the `require.resolve()` function.
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Putting together all of the above, here is the high-level algorithm
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in pseudocode of what require.resolve does:
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require(X)
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1. If X is a core module,
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a. return the core module
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b. STOP
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2. If X begins with `./` or `/`,
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a. LOAD_AS_FILE(Y + X)
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b. LOAD_AS_DIRECTORY(Y + X)
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3. LOAD_NODE_MODULES(X, dirname(Y))
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4. THROW "not found"
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LOAD_AS_FILE(X)
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1. If X is a file, load X as JavaScript text. STOP
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2. If X.js is a file, load X.js as JavaScript text. STOP
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3. If X.node is a file, load X.node as binary addon. STOP
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LOAD_AS_DIRECTORY(X)
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1. If X/package.json is a file,
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a. Parse X/package.json, and look for "main" field.
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b. let M = X + (json main field)
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c. LOAD_AS_FILE(M)
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2. LOAD_AS_FILE(X/index)
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LOAD_NODE_MODULES(X, START)
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1. let DIRS=NODE_MODULES_PATHS(START)
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2. for each DIR in DIRS:
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a. LOAD_AS_FILE(DIR/X)
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b. LOAD_AS_DIRECTORY(DIR/X)
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NODE_MODULES_PATHS(START)
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1. let PARTS = path split(START)
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2. let ROOT = index of first instance of "node_modules" in PARTS, or 0
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3. let I = count of PARTS - 1
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4. let DIRS = []
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5. while I > ROOT,
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a. if PARTS[I] = "node_modules" CONTINUE
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c. DIR = path join(PARTS[0 .. I] + "node_modules")
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b. DIRS = DIRS + DIR
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6. return DIRS
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### Loading from the `require.paths` Folders
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In node, `require.paths` is an array of strings that represent paths to
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be searched for modules when they are not prefixed with `'/'`, `'./'`, or
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`'../'`. For example, if require.paths were set to:
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[ '/home/micheil/.node_modules',
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'/usr/local/lib/node_modules' ]
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Then calling `require('bar/baz.js')` would search the following
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locations:
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* 1: `'/home/micheil/.node_modules/bar/baz.js'`
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* 2: `'/usr/local/lib/node_modules/bar/baz.js'`
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The `require.paths` array can be mutated at run time to alter this
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behavior.
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It is set initially from the `NODE_PATH` environment variable, which is
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a colon-delimited list of absolute paths. In the previous example,
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the `NODE_PATH` environment variable might have been set to:
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/home/micheil/.node_modules:/usr/local/lib/node_modules
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Loading from the `require.paths` locations is only performed if the
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module could not be found using the `node_modules` algorithm above.
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Global modules are lower priority than bundled dependencies.
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#### **Note:** Please Avoid Modifying `require.paths`
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For compatibility reasons, `require.paths` is still given first priority
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in the module lookup process. However, it may disappear in a future
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release.
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While it seemed like a good idea at the time, and enabled a lot of
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useful experimentation, in practice a mutable `require.paths` list is
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often a troublesome source of confusion and headaches.
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##### Setting `require.paths` to some other value does nothing.
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This does not do what one might expect:
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require.paths = [ '/usr/lib/node' ];
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All that does is lose the reference to the *actual* node module lookup
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paths, and create a new reference to some other thing that isn't used
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for anything.
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##### Putting relative paths in `require.paths` is... weird.
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If you do this:
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require.paths.push('./lib');
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then it does *not* add the full resolved path to where `./lib`
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is on the filesystem. Instead, it literally adds `'./lib'`,
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meaning that if you do `require('y.js')` in `/a/b/x.js`, then it'll look
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in `/a/b/lib/y.js`. If you then did `require('y.js')` in
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`/l/m/n/o/p.js`, then it'd look in `/l/m/n/o/lib/y.js`.
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In practice, people have used this as an ad hoc way to bundle
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dependencies, but this technique is brittle.
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##### Zero Isolation
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There is (by regrettable design), only one `require.paths` array used by
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all modules.
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As a result, if one node program comes to rely on this behavior, it may
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permanently and subtly alter the behavior of all other node programs in
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the same process. As the application stack grows, we tend to assemble
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functionality, and it is a problem with those parts interact in ways
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that are difficult to predict.
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## Addenda: Package Manager Tips
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The semantics of Node's `require()` function were designed to be general
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enough to support a number of sane directory structures. Package manager
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programs such as `dpkg`, `rpm`, and `npm` will hopefully find it possible to
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build native packages from Node modules without modification.
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Below we give a suggested directory structure that could work:
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Let's say that we wanted to have the folder at
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`/usr/lib/node/<some-package>/<some-version>` hold the contents of a
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specific version of a package.
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Packages can depend on one another. In order to install package `foo`, you
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may have to install a specific version of package `bar`. The `bar` package
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may itself have dependencies, and in some cases, these dependencies may even
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collide or form cycles.
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Since Node looks up the `realpath` of any modules it loads (that is,
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resolves symlinks), and then looks for their dependencies in the
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`node_modules` folders as described above, this situation is very simple to
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resolve with the following architecture:
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* `/usr/lib/node/foo/1.2.3/` - Contents of the `foo` package, version 1.2.3.
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* `/usr/lib/node/bar/4.3.2/` - Contents of the `bar` package that `foo`
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depends on.
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* `/usr/lib/node/foo/1.2.3/node_modules/bar` - Symbolic link to
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`/usr/lib/node/bar/4.3.2/`.
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* `/usr/lib/node/bar/4.3.2/node_modules/*` - Symbolic links to the packages
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that `bar` depends on.
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Thus, even if a cycle is encountered, or if there are dependency
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conflicts, every module will be able to get a version of its dependency
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that it can use.
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When the code in the `foo` package does `require('bar')`, it will get the
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version that is symlinked into `/usr/lib/node/foo/1.2.3/node_modules/bar`.
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Then, when the code in the `bar` package calls `require('quux')`, it'll get
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the version that is symlinked into
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`/usr/lib/node/bar/4.3.2/node_modules/quux`.
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Furthermore, to make the module lookup process even more optimal, rather
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than putting packages directly in `/usr/lib/node`, we could put them in
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`/usr/lib/node_modules/<name>/<version>`. Then node will not bother
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looking for missing dependencies in `/usr/node_modules` or `/node_modules`.
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In order to make modules available to the node REPL, it might be useful to
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also add the `/usr/lib/node_modules` folder to the `$NODE_PATH` environment
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variable. Since the module lookups using `node_modules` folders are all
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relative, and based on the real path of the files making the calls to
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`require()`, the packages themselves can be anywhere.
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