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I've found the following contract in a Node.js module:

module.exports = exports = nano = function database_module(cfg) {...}

I wonder whats the different between module.exports and exports and why both are used here.

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4  
For posterity: nodejs.org/docs/latest/api/modules.html#module.exports –  orftz Feb 8 '12 at 16:57
24  
Great resource: hacksparrow.com/node-js-exports-vs-module-exports.html ^_^ –  Neal Dec 10 '12 at 15:12
3  
Updated 'for posterity' link: nodejs.org/docs/latest/api/modules.html#modules_module_exports –  Zeke Mar 20 '13 at 20:55
2  
It's all about references. Think of exports like a local variable object pointing to module.exports. If you overrite the value of exports, then you lose the reference to module.exports, and module.exports is what you expose as a public interface. –  Gabriel Llamas Jan 6 at 12:00
    
Quick Summary: both exports and module.exports point to the same object, unless you reassign one. And in the end module.exports is returned. So if you reassigned exports to a function then dont expect a function since it isn't going to be returned. However if you had assigned function like this exports.func = function... then resulting thing would have func property with function as a value. Because you added the property to the object that exports was pointing to .. –  Muhammad Umer Jun 23 at 19:51

11 Answers 11

up vote 217 down vote accepted

Setting module.exports allows the database_module function to be called like a function when required. Simply setting exports wouldn't allow the function to be exported. The following code wouldn't allow the user to call the function.

module.js

The following won't work.

exports = nano = function database_module(cfg) {return;}

The following will work if module.exports is set.

module.exports = exports = nano = function database_module(cfg) {return;}

console

var func = require('./module.js');
// the following line will **work** with module.exports
func();

Basically node.js doesn't export the object that exports currently references, but exports the properties of what exports originally references. Although Node.js does export the object module.exports references, allowing you to call it like a function.


2nd least important reason

They set both module.exports and exports to ensure exports isn't referencing the prior exported object. By setting both you use exports as a shorthand and avoid potential bugs later on down the road.

Using exports.prop = true instead of module.exports.prop = true saves characters and avoids confusion.

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3  
Thanks Lime. Just one question - what's the purpose of nano in your example? –  ajostergaard Jan 12 '13 at 9:06
3  
@ajostergaard: It just happens to be the name of the library the OP's example was taken from. In the module, it allows the author to write things like nano.version = '3.3' instead of module.exports.version = '3.3', which reads a little more clearly. (Note that nano is a local variable, declared a little before the module exports are set.) –  josh3736 Jan 14 '13 at 20:19
2  
@lime - thanks - I'm glad it's largely irrelevant because if it wasn't it would mean I'd completely misunderstood everything. :-| :) –  ajostergaard Jan 14 '13 at 23:18
    
Hey Lime, this is a pretty old answer but I hope you can clarify something. If I were to set module.exports but not exports, would my code still work? Thanks for any help! –  Asad Feb 21 '13 at 0:42
1  
@Asad Yes the function will export properly provided you set module.exports –  William Feb 21 '13 at 23:19

Basically the answer lies in what really happens when a module is required via require statement. Assuming this is the first time the module is being required.

For example:

var x = require('file1.js');

contents of file1.js:

module.exports = '123';

When the above statement is executed, a Module object is created. Its constructor function is:

function Module(id, parent) {
    this.id = id;
    this.exports = {};
    this.parent = parent;
    if (parent && parent.children) {
        parent.children.push(this);
    }

    this.filename = null;
    this.loaded = false;
    this.children = [];
}

As you see each module object has a property with name exports. This is what is eventually returned as part of require.

Next step of require is to wrap the contents of file1.js into an anonymous function like below:

(function (exports, require, module, __filename, __dirname) { 
    //contents from file1.js
    module.exports = '123;
});

And this anonymous function is invoked the following way, module here refers to the Module Object created earlier.

(function (exports, require, module, __filename, __dirname) { 
    //contents from file1.js
    module.exports = '123;
}) (module.exports,require, module, "path_to_file1.js","directory of the file1.js");

As we can see inside the function, exports formal argument refers to module.exports. In essence it's a convenience provided to the module programmer.

However this convenience need to be exercised with care. In any case if trying to assign a new object to exports ensure we do it this way.

exports = module.exports = {};

If we do it following way wrong way, module.exports will still be pointing to the object created as part of module instance.

exports = {};

As as result adding anything to the above exports object will have no effect to module.exports object and nothing will be exported or returned as part of require.

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Lost me here exports = module.exports = {}; –  Giant Elk Apr 3 at 3:02
    
I think this should be the best answer, it explains why func() fails in @William's answer! –  turtledove Jul 17 at 2:38

Even question is answered and accepted long ago, just want to share my 2 cents:

You can imagine that at very begining of your file there is something like (just for explanation):

var module = new Module(...);
var exports = module.exports;

enter image description here

So whatever you do just keep in mind that module.exports and NOT exports will be returned from your module when you requiring that module from somewhere else.

So when you do something like:

exports.a = function() {
    console.log("a");
}
exports.b = function() {
    console.log("b");
}

You are adding 2 function 'a' and 'b' to the object on which module.exports points too, so typeof returning result will be an object : { a: [Function], b: [Function] }

Of course this is the same result you will get if you are using module.exports in this example instead of exports.

This is the case where you want your module.exports to behave like container of exported values. In the case where you only want to export a constructor function, what you will do? (Remember again that module.exports will be returned when you required something, not export).

module.exports = function Something() {
    console.log('bla bla');
}

Now typeof returning result is 'function' and you can required it and immediately invoke like:
var x = require('./file1.js')(); because you overwrite the returning result to be an function.

Why in this case you can't use something like:

exports = function Something() {
    console.log('bla bla');
}

Because with this exports reference doesn't 'point' anymore to the object where module.exports points, so there is not a relationship between exports and module.exports anymore. In this case module.exports still points to the empty object {} which will be returned.

Accepted answer from another topic should also help: Does JavaScript pass by reference?

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Nice explanation but I still don't understand how you can completely omit module.exports from a module, for example in this npm package: github.com/tj/consolidate.js/blob/master/lib/consolidate.js –  Imray Feb 9 at 7:46
    
@Imray the explanation is here: Does JavaScript pass by reference? exports.a = function(){}; works, exports = function(){} doesn't work –  cirpo Jun 12 at 19:00
    
oooo finally this answer explains it. Basically export refers to an object to which you can add properties but if you reassign it to function then you are no long attach a property to that original object. Now export refer to function while module.exports is still pointing to that object and since it's what's returned. You can say export has been basically garbage collected. –  Muhammad Umer Jun 23 at 19:48
    
So then, what's the point of using exports? Why not just always use module.exports if it's just a variable reassignment? Seems confusing to me. –  jedd.ahyoung Jul 4 at 16:30
    
@jedd.ahyoung It is less cumbersome to write exports.something instead of module.exports.something –  Srle Jul 4 at 17:08

Initially,module.exports=exports , and the require function returns the object module.exports refers to.

if we add property to the object, say exports.a=1, then module.exports and exports still refer to the same object. So if we call require and assign the module to a variable, then the variable has a property a and it's value is 1;

But if we override one of them, for example, exports=function(){}, then they are different now: exports refers to a new object and module.exports refer to the original object. And if we require the file, it will not return the new object, since module.exports is not refer to the new object.

For me, i will keep adding new property, or override both of them to a new object. Just override one is not right. And keep in mind that module.exports is the real boss.

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I just make some test, it turns out that, inside nodejs's module code, it should something like this:

var module.exports = {};
var exports = module.exports;

so:

1:

exports = function(){}; // this will not work! as it make the exports to some other pointer
module.exports = function(){}; // it works! cause finally nodejs make the module.exports to export.

2:

exports.abc = function(){}; // works!
exports.efg = function(){}; // works!

3: but, while in this case

module.exports = function(){}; // from now on we have to using module.exports to attach more stuff to exports.
module.exports.a = 'value a'; // works
exports.b = 'value b'; // the b will nerver be seen cause of the first line of code we have do it before (or later)
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Lyman, so module.exports is sort of the 'real-deal' that node goes off of but at some point you'll need to add all your exports to module.exports unless you're using a exports.namespace (case 2 above), which in that case seems to be like Node ran a extends(module.exports, exports); adding all 'namespaces' of exports to the module.exports object? In other words, if you're using exports then you probably want to be setting properties on it? –  Cody Mar 24 '14 at 22:04

I found this link useful to answer the above question.

http://timnew.github.io/blog/2012/04/20/exports_vs_module_exports_in_node_js/

To add to the other posts The module system in node does

var exports = module.exports 

before executing your code. So when you want to exports = foo , you probably want to do module.exports = exports = foo but using exports.foo = foo should be fine

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3  
Welcome to Stack Overflow. Please summarise the link in your answer; that way, if the link goes stale the answer won't be completely useless. –  michaelb958 Jul 2 '13 at 14:04

I went through some tests and I think this may shed some light on the subject...

app.js:

var ...
  , routes = require('./routes')
  ...;
...
console.log('@routes', routes);
...

versions of /routes/index.js:

exports = function fn(){}; // outputs "@routes {}"

exports.fn = function fn(){};  // outputs "@routes { fn: [Function: fn] }"

module.exports = function fn(){};  // outputs "@routes function fn(){}"

module.exports.fn = function fn(){};  // outputs "@routes { fn: [Function: fn] }"

I even added new files:

./routes/index.js:

module.exports = require('./not-index.js');
module.exports = require('./user.js');

./routes/not-index.js:

exports = function fn(){};

./routes/user.js:

exports = function user(){};

We get the output "@routes {}"


./routes/index.js:

module.exports.fn = require('./not-index.js');
module.exports.user = require('./user.js');

./routes/not-index.js:

exports = function fn(){};

./routes/user.js:

exports = function user(){};

We get the output "@routes { fn: {}, user: {} }"


./routes/index.js:

module.exports.fn = require('./not-index.js');
module.exports.user = require('./user.js');

./routes/not-index.js:

exports.fn = function fn(){};

./routes/user.js:

exports.user = function user(){};

We get the output "@routes { user: [Function: user] }" If we change user.js to { ThisLoadedLast: [Function: ThisLoadedLast] }, we get the output "@routes { ThisLoadedLast: [Function: ThisLoadedLast] }".


But if we modify ./routes/index.js...

./routes/index.js:

module.exports.fn = require('./not-index.js');
module.exports.ThisLoadedLast = require('./user.js');

./routes/not-index.js:

exports.fn = function fn(){};

./routes/user.js:

exports.ThisLoadedLast = function ThisLoadedLast(){};

... we get "@routes { fn: { fn: [Function: fn] }, ThisLoadedLast: { ThisLoadedLast: [Function: ThisLoadedLast] } }"

So I would suggest always use module.exports in your module definitions.

I don't completely understand what's going on internally with Node, but please comment if you can make more sense of this as I'm sure it helps.

-- Happy coding

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I think they are unnecessarily complicated and confusing. It should be transparent and intuitive. –  ngungo Apr 27 '14 at 1:11
    
I agree. It may be useful for namespacing is some circumstances, but is generally not going to make or break anything. –  Cody Apr 28 '14 at 1:52

JavaScript passes by reference

It's a subtle difference to do with the way objects are passed by reference in JavaScript.

exports and module.exports both point to the same object. exports is a variable and module.exports is an attribute of the module object.

Say I write something like this:

exports = {a:1};
module.exports = {b:12};

exports and module.exports now point to different objects. Modifying exports no longer modifies module.exports.

When the import function inspects module.exports it gets {b:12}

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"If you want the root of your module's export to be a function (such as a constructor) or if you want to export a complete object in one assignment instead of building it one property at a time, assign it to module.exports instead of exports." - http://nodejs.org/api/modules.html

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in node js module.js file is use to run the module.load system.every time when node execute a file it wrap your js file content as follow

'(function (exports, require, module, __filename, __dirname) {',+
     //your js file content
 '\n});'

because of this wrapping inside ur js source code you can access exports,require,module,etc.. this approach is used because there is no other way to get functionalities wrote in on js file to another.

then node execute this wrapped function using c++. at that moment exports object that passed into this function will be filled.

you can see inside this function parameters exports and module. actually exports is a public member of module constructor function.

look at following code

copy this code into b.js

console.log("module is "+Object.prototype.toString.call(module));
console.log("object.keys "+Object.keys(module));
console.log(module.exports);
console.log(exports === module.exports);
console.log("exports is "+Object.prototype.toString.call(exports));
console.log('----------------------------------------------');
var foo = require('a.js');
console.log("object.keys of foo: "+Object.keys(foo));
console.log('name is '+ foo);
foo();

copy this code to a.js

exports.name = 'hello';
module.exports.name = 'hi';
module.exports.age = 23;
module.exports = function(){console.log('function to module exports')};
//exports = function(){console.log('function to export');}

now run using node

this is the output

module is [object Object]
object.keys id,exports,parent,filename,loaded,children,paths
{}
true

exports is [object Object]

object.keys of foo: name is function (){console.log('function to module exports')} function to module exports

now remove the commented line in a.js and comment the line above that line and remove the last line of b.js and run.

in javascript world you cannot reassign object that passed as parameter but you can change function's public member when object of that function set as a parameter to another function

do remember

use module.exports on and only if you wants to get a function when you use require keyword . in above example we var foo = require(a.js); you can see we can call foo as a function;

this is how node documentation explain it "The exports object is created by the Module system. Sometimes this is not acceptable, many want their module to be an instance of some class. To do this assign the desired export object to module.exports."

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Here is a good description written about node modules in node.js in action book from Manning publication.
What ultimately gets exported in your application is module.exports.
exports
is set up simply as a global reference to module.exports , which initially is defined as an empty object that you can add properties to. So exports.myFunc is just shorthand for module.exports.myFunc.

As a result, if exports is set to anything else, it breaks the reference between module.exports and exports . Because module.exports is what really gets exported, exports will no longer work as expected—it doesn’t reference module .exports anymore. If you want to maintain that link, you can make module.exports reference exports again as follows:

module.exports = exports = db;
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