Mongoose is a MongoDB object modeling tool designed to work in an asynchronous environment.
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First install node.js and mongodb. Then:
$ npm install mongoose
The current stable branch is 3.8.x. New (unstable) development always occurs on the master branch.
First, we need to define a connection. If your app uses only one database, you should use mongoose.connect
. If you need to create additional connections, use mongoose.createConnection
.
Both connect
and createConnection
take a mongodb://
URI, or the parameters host, database, port, options
.
var mongoose = require('mongoose');
mongoose.connect('mongodb://localhost/my_database');
Once connected, the open
event is fired on the Connection
instance. If you're using mongoose.connect
, the Connection
is mongoose.connection
. Otherwise, mongoose.createConnection
return value is a Connection
.
Important! Mongoose buffers all the commands until it's connected to the database. This means that you don't have to wait until it connects to MongoDB in order to define models, run queries, etc.
Models are defined through the Schema
interface.
var Schema = mongoose.Schema
, ObjectId = Schema.ObjectId;
var BlogPost = new Schema({
author : ObjectId
, title : String
, body : String
, date : Date
});
Aside from defining the structure of your documents and the types of data you're storing, a Schema handles the definition of:
- Validators (async and sync)
- Defaults
- Getters
- Setters
- Indexes
- Middleware
- Methods definition
- Statics definition
- Plugins
- pseudo-JOINs
The following example shows some of these features:
var Comment = new Schema({
name : { type: String, default: 'hahaha' }
, age : { type: Number, min: 18, index: true }
, bio : { type: String, match: /[a-z]/ }
, date : { type: Date, default: Date.now }
, buff : Buffer
});
// a setter
Comment.path('name').set(function (v) {
return capitalize(v);
});
// middleware
Comment.pre('save', function (next) {
notify(this.get('email'));
next();
});
Take a look at the example in examples/schema.js
for an end-to-end example of a typical setup.
Once we define a model through mongoose.model('ModelName', mySchema)
, we can access it through the same function
var myModel = mongoose.model('ModelName');
Or just do it all at once
var MyModel = mongoose.model('ModelName', mySchema);
We can then instantiate it, and save it:
var instance = new MyModel();
instance.my.key = 'hello';
instance.save(function (err) {
//
});
Or we can find documents from the same collection
MyModel.find({}, function (err, docs) {
// docs.forEach
});
You can also findOne
, findById
, update
, etc. For more details check out the docs.
Important! If you opened a separate connection using mongoose.createConnection()
but attempt to access the model through mongoose.model('ModelName')
it will not work as expected since it is not hooked up to an active db connection. In this case access your model through the connection you created:
var conn = mongoose.createConnection('your connection string')
, MyModel = conn.model('ModelName', schema)
, m = new MyModel;
m.save(); // works
vs
var conn = mongoose.createConnection('your connection string')
, MyModel = mongoose.model('ModelName', schema)
, m = new MyModel;
m.save(); // does not work b/c the default connection object was never connected
In the first example snippet, we defined a key in the Schema that looks like:
comments: [Comments]
Where Comments
is a Schema
we created. This means that creating embedded documents is as simple as:
// retrieve my model
var BlogPost = mongoose.model('BlogPost');
// create a blog post
var post = new BlogPost();
// create a comment
post.comments.push({ title: 'My comment' });
post.save(function (err) {
if (!err) console.log('Success!');
});
The same goes for removing them:
BlogPost.findById(myId, function (err, post) {
if (!err) {
post.comments[0].remove();
post.save(function (err) {
// do something
});
}
});
Embedded documents enjoy all the same features as your models. Defaults, validators, middleware. Whenever an error occurs, it's bubbled to the save()
error callback, so error handling is a snap!
Mongoose interacts with your embedded documents in arrays atomically, out of the box.
See the docs page.
You can intercept method arguments via middleware.
For example, this would allow you to broadcast changes about your Documents every time someone set
s a path in your Document to a new value:
schema.pre('set', function (next, path, val, typel) {
// `this` is the current Document
this.emit('set', path, val);
// Pass control to the next pre
next();
});
Moreover, you can mutate the incoming method
arguments so that subsequent middleware see different values for those arguments. To do so, just pass the new values to next
:
.pre(method, function firstPre (next, methodArg1, methodArg2) {
// Mutate methodArg1
next("altered-" + methodArg1.toString(), methodArg2);
});
// pre declaration is chainable
.pre(method, function secondPre (next, methodArg1, methodArg2) {
console.log(methodArg1);
// => 'altered-originalValOfMethodArg1'
console.log(methodArg2);
// => 'originalValOfMethodArg2'
// Passing no arguments to `next` automatically passes along the current argument values
// i.e., the following `next()` is equivalent to `next(methodArg1, methodArg2)`
// and also equivalent to, with the example method arg
// values, `next('altered-originalValOfMethodArg1', 'originalValOfMethodArg2')`
next();
});
type
, when used in a schema has special meaning within Mongoose. If your schema requires using type
as a nested property you must use object notation:
new Schema({
broken: { type: Boolean }
, asset : {
name: String
, type: String // uh oh, it broke. asset will be interpreted as String
}
});
new Schema({
works: { type: Boolean }
, asset : {
name: String
, type: { type: String } // works. asset is an object with a type property
}
});
The driver being used defaults to node-mongodb-native and is directly accessible through YourModel.collection
. Note: using the driver directly bypasses all Mongoose power-tools like validation, getters, setters, hooks, etc.
Find the API docs here, generated using dox.
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