From 3601b7bb982e958927e069715cfe07430bce7196 Mon Sep 17 00:00:00 2001 From: Peter Bengtsson Date: Thu, 15 Jul 2021 12:59:34 -0400 Subject: delete pages that were never translated from en-US (es, part 1) (#1547) --- .../server-side/express_nodejs/mongoose/index.html | 801 --------------------- 1 file changed, 801 deletions(-) delete mode 100644 files/es/learn/server-side/express_nodejs/mongoose/index.html (limited to 'files/es/learn/server-side/express_nodejs/mongoose/index.html') diff --git a/files/es/learn/server-side/express_nodejs/mongoose/index.html b/files/es/learn/server-side/express_nodejs/mongoose/index.html deleted file mode 100644 index f5701c468a..0000000000 --- a/files/es/learn/server-side/express_nodejs/mongoose/index.html +++ /dev/null @@ -1,801 +0,0 @@ ---- -title: 'Express Tutorial 3: Utilizando bases de datos (con Mongoose)' -slug: Learn/Server-side/Express_Nodejs/mongoose -translation_of: Learn/Server-side/Express_Nodejs/mongoose ---- -
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Este artículo introduce brevemente las bases de datos así como su uso en aplicaciones Node/Express. Despues, profundiza en el uso específico de Mongoose en el proyecto LocalLibrary. Explica como se declaran y utilizan los esquemas modelo-objeto, los principales campos de datos y su validación básica. También muestra brevemente algunas de las muchas formas para acceder y modificar los datos.

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PrerequisitosExpress Tutorial 2: Creando un esqueleto web
Objetivo:Ser capaz de crear, diseñar y utilizar bases de datos en Node/Express utilizando Mongoose
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Overview

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Library staff will use the Local Library website to store information about books and borrowers, while library members will use it to browse and search for books, find out whether there are any copies available, and then reserve or borrow them. In order to store and retrieve information efficiently, we will store it in a database.

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Las aplicaciones Express pueden utilizar diferentes bases de datos, y existen diferentes aproximaciones que se pueden utilizar para realizar operaciones CRUD (Create, Read, Update and Delete). Este tutorial proporciona una vista general sobre algunas de las opciones disponibles, para a continuación mostrar en detalle los mecanismos elegidos en particular.

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What databases can I use?

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Express apps can use any database supported by Node (Express itself doesn't define any specific additional behaviour/requirements for database management). There are many popular options, including PostgreSQL, MySQL, Redis, SQLite, and MongoDB.

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When choosing a database, you should consider things like time-to-productivity/learning curve, performance, ease of replication/backup, cost, community support, etc. While there is no single "best" database, almost any of the popular solutions should be more than acceptable for a small-to-medium-sized site like our Local Library.

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For more information on the options see: Database integration (Express docs).

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What is the best way to interact with a database?

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There are two approaches for interacting with a database: 

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The very best performance can be gained by using SQL, or whatever query language is supported by the database. ODM's are often slower because they use translation code to map between objects and the database format, which may not use the most efficient database queries (this is particularly true if the ODM supports different database backends, and must make greater compromises in terms of what database features are supported).

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The benefit of using an ORM is that programmers can continue to think in terms of JavaScript objects rather than database semantics — this is particularly true if you need to work with different databases (on either the same or different websites). They also provide an obvious place to perform validation and checking of data.

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Tip:  Using ODM/ORMs often results in lower costs for development and maintenance! Unless you're very familiar with the native query language or performance is paramount, you should strongly consider using an ODM.

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What ORM/ODM should I use?

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There are many ODM/ORM solutions available on the NPM package manager site (check out the odm and orm tags for a subset!).

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A few solutions that were popular at the time of writing are:

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As a general rule you should consider both the features provided and the "community activity" (downloads, contributions, bug reports, quality of documentation, etc.) when selecting a solution. At time of writing Mongoose is by far the most popular ORM, and is a reasonable choice if you're using MongoDB for your database.

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Using Mongoose and MongoDb for the LocalLibrary

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For the Local Library example (and the rest of this topic) we're going to use the Mongoose ODM to access our library data. Mongoose acts as a front end to MongoDB, an open source NoSQL database that uses a document-oriented data model. A “collection” of “documents”, in a MongoDB database, is analogous to a “table” of “rows” in a relational database.

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This ODM and database combination is extremely popular in the Node community, partially because the document storage and query system looks very much like JSON, and is hence familiar to JavaScript developers.

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Tip: You don't need to know MongoDB in order to use Mongoose, although parts of the Mongoose documentation are easier to use and understand if you are already familiar with MongoDB.

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- -

The rest of this tutorial shows how to define and access the Mongoose schema and models for the LocalLibrary website example.

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Designing the LocalLibrary models

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Before you jump in and start coding the models, it's worth taking a few minutes to think about what data we need to store and the relationships between the different objects.

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We know that we need to store information about books (title, summary, author, genre, ISBN) and that we might have multiple copies available (with globally unique ids, availability statuses, etc.). We might need to store more information about the author than just their name, and there might be multiple authors with the same or similar names. We want to be able to sort information based on book title, author, genre, and category.

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When designing your models it makes sense to have separate models for every "object" (group of related information). In this case the obvious objects are books, book instances, and authors.

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You might also want to use models to represent selection-list options (e.g. like a drop down list of choices), rather than hard coding the choices into the website itself — this is recommended when all the options aren't known up front or may change. The obvious candidate for a model of this type is the book genre (e.g. Science Fiction, French Poetry, etc.)

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Once we've decided on our models and fields, we need to think about the relationships between them.

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With that in mind, the UML association diagram below shows the models we'll define in this case (as boxes). As discussed above, we've created models for book (the generic details of the book), book instance (status of specific physical copies of the book available in the system), and author. We have also decided to have a model for genre, so that values can be created dynamically. We've decided not to have a model for the BookInstance:status — we will hard code the acceptable values because we don't expect these to change. Within each of the boxes you can see the model name, the field names and types, and also the methods and their return types.

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The diagram also shows the relationships between the models, including their multiplicities. The multiplicities are the numbers on the diagram showing the numbers (maximum and minimum) of each model that may be present in the relationship. For example, the connecting line between the boxes shows that Book and a Genre are related. The numbers close to the Book model show that a Genre must have zero or more Book (as many as you like), while the numbers on the other end of the line next to the Genre show that it can have zero or more associated genre.

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Note: As discussed in our Mongoose primer below it is often better to have the field that defines the relationship between the documents/models in just one model (you can still find the reverse relationship by searching for the associated _id in the other model). Below we have chosen to define the relationship between Book/Genre and Book/Author in the Book schema, and the relationship between the Book/BookInstance in the BookInstance Schema. This choice was somewhat arbitrary — we could equally well have had the field in the other schema.

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Mongoose Library Model with correct cardinality

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-

Note: The next section provides a basic primer explaining how models are defined and used. As you read it, consider how we will construct each of the models in the diagram above.

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Mongoose primer

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This section provides an overview of how to connect Mongoose to a MongoDB database, how to define a schema and a model, and how to make basic queries. 

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-

Note: This primer is "heavily influenced" by the Mongoose quick start on npm and the official documentation.

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Installing Mongoose and MongoDB

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Mongoose is installed in your project (package.json) like any other dependency — using NPM. To install it, use the following command inside your project folder:

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npm install mongoose
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Installing Mongoose adds all its dependencies, including the MongoDB database driver, but it does not install MongoDB itself. If you want to install a MongoDB server then you can download installers from here for various operating systems and install it locally. You can also use cloud-based MongoDB instances.

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Note: For this tutorial we'll be using the mLab cloud-based database as a service sandbox tier to provide the database. This is suitable for development, and makes sense for the tutorial because it makes "installation" operating system independent (database-as-a-service is also one approach you might well use for your production database).

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Connecting to MongoDB

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Mongoose requires a connection to a MongoDB database. You can require() and connect to a locally hosted database with mongoose.connect(), as shown below.

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//Import the mongoose module
-var mongoose = require('mongoose');
-
-//Set up default mongoose connection
-var mongoDB = 'mongodb://127.0.0.1/my_database';
-mongoose.connect(mongoDB);
-// Get Mongoose to use the global promise library
-mongoose.Promise = global.Promise;
-//Get the default connection
-var db = mongoose.connection;
-
-//Bind connection to error event (to get notification of connection errors)
-db.on('error', console.error.bind(console, 'MongoDB connection error:'));
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You can get the default Connection object with mongoose.connection. Once connected, the open event is fired on the Connection instance.

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Tip: If you need to create additional connections you can use mongoose.createConnection(). This takes the same form of database URI (with host, database, port, options etc.) as connect() and returns a Connection object).

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Defining and creating models

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Models are defined using the Schema interface. The Schema allows you to define the fields stored in each document along with their validation requirements and default values. In addition, you can define static and instance helper methods to make it easier to work with your data types, and also virtual properties that you can use like any other field, but which aren't actually stored in the database (we'll discuss a bit further below).

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Schemas are then "compiled" into models using the mongoose.model() method. Once you have a model you can use it to find, create, update, and delete objects of the given type.

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Note: Each model maps to a collection of documents in the MongoDB database. The documents will contain the fields/schema types defined in the model Schema.

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Defining schemas

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The code fragment below shows how you might define a simple schema. First you require() mongoose, then use the Schema constructor to create a new schema instance, defining the various fields inside it in the constructor's object parameter.

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//Require Mongoose
-var mongoose = require('mongoose');
-
-//Define a schema
-var Schema = mongoose.Schema;
-
-var SomeModelSchema = new Schema({
-    a_string: String,
-    a_date: Date
-});
-
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In the case above we just have two fields, a string and a date. In the next sections we will show some of the other field types, validation, and other methods.

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Creating a model

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Models are created from schemas using the mongoose.model() method:

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// Define schema
-var Schema = mongoose.Schema;
-
-var SomeModelSchema = new Schema({
-    a_string: String,
-    a_date: Date
-});
-
-// Compile model from schema
-var SomeModel = mongoose.model('SomeModel', SomeModelSchema );
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The first argument is the singular name of the collection that will be created for your model (Mongoose will create the database collection for the above model SomeModel above), and the second argument is the schema you want to use in creating the model.

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Note: Once you've defined your model classes you can use them to create, update, or delete records, and to run queries to get all records or particular subsets of records. We'll show you how to do this in the Using models section, and when we create our views.

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Tipos de esquema (campos)

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Un esquema puede tener un número de campos arbitrario  — cada uno representa un campo en los documentos almacenados en MongoDB. A continuación se muestra un ejemplo de esquema con varios de los tipos de campos más comunes y cómo se declaran.

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var schema = new Schema(
-{
-  name: String,
-  binary: Buffer,
-  living: Boolean,
-  updated: { type: Date, default: Date.now },
-  age: { type: Number, min: 18, max: 65, required: true },
-  mixed: Schema.Types.Mixed,
-  _someId: Schema.Types.ObjectId,
-  array: [],
-  ofString: [String], // You can also have an array of each of the other types too.
-  nested: { stuff: { type: String, lowercase: true, trim: true } }
-})
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Most of the SchemaTypes (the descriptors after “type:” or after field names) are self explanatory. The exceptions are:

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The code also shows both ways of declaring a field:

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For more information about options see SchemaTypes (Mongoose docs).

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Validation

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Mongoose provides built-in and custom validators, and synchronous and asynchronous validators. It allows you to specify both the acceptable range or values and the error message for validation failure in all cases.

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The built-in validators include:

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The example below (slightly modified from the Mongoose documents) shows how you can specify some of the validator types and error messages:

- -

-    var breakfastSchema = new Schema({
-      eggs: {
-        type: Number,
-        min: [6, 'Too few eggs'],
-        max: 12,
-        required: [true, 'Why no eggs?']
-      },
-      drink: {
-        type: String,
-        enum: ['Coffee', 'Tea', 'Water',]
-      }
-    });
-
- -

For complete information on field validation see Validation (Mongoose docs).

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Virtual properties

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Virtual properties are document properties that you can get and set but that do not get persisted to MongoDB. The getters are useful for formatting or combining fields, while setters are useful for de-composing a single value into multiple values for storage. The example in the documentation constructs (and deconstructs) a full name virtual property from a first and last name field, which is easier and cleaner than constructing a full name every time one is used in a template.

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Note: We will use a virtual property in the library to define a unique URL for each model record using a path and the record's _id value.

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For more information see Virtuals (Mongoose documentation).

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Methods and query helpers

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A schema can also have instance methods, static methods, and query helpers. The instance and static methods are similar, but with the obvious difference that an instance method is associated with a particular record and has access to the current object. Query helpers allow you to extend mongoose's chainable query builder API (for example, allowing you to add a query "byName" in addition to the find(), findOne() and findById() methods).

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Using models

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Once you've created a schema you can use it to create models. The model represents a collection of documents in the database that you can search, while the model's instances represent individual documents that you can save and retrieve.

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We provide a brief overview below. For more information see: Models (Mongoose docs).

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Creating and modifying documents

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To create a record you can define an instance of the model and then call save(). The examples below assume SomeModel is a model (with a single field "name") that we have created from our schema.

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// Create an instance of model SomeModel
-var awesome_instance = new SomeModel({ name: 'awesome' });
-
-// Save the new model instance, passing a callback
-awesome_instance.save(function (err) {
-  if (err) return handleError(err);
-  // saved!
-});
-
- -

Creation of records (along with updates, deletes, and queries) are asynchronous operations — you supply a callback that is called when the operation completes. The API uses the error-first argument convention, so the first argument for the callback will always be an error value (or null). If the API returns some result, this will be provided as the second argument.

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You can also use create() to define the model instance at the same time as you save it. The callback will return an error for the first argument and the newly-created model instance for the second argument.

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SomeModel.create({ name: 'also_awesome' }, function (err, awesome_instance) {
-  if (err) return handleError(err);
-  // saved!
-});
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Every model has an associated connection (this will be the default connection when you use mongoose.model()). You create a new connection and call .model() on it to create the documents on a different database.

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You can access the fields in this new record using the dot syntax, and change the values. You have to call save() or update() to store modified values back to the database.

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// Access model field values using dot notation
-console.log(awesome_instance.name); //should log 'also_awesome'
-
-// Change record by modifying the fields, then calling save().
-awesome_instance.name="New cool name";
-awesome_instance.save(function (err) {
-   if (err) return handleError(err); // saved!
-   });
-
- -

Searching for records

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You can search for records using query methods, specifying the query conditions as a JSON document. The code fragment below shows how you might find all athletes in a database that play tennis, returning just the fields for athlete name and age. Here we just specify one matching field (sport) but you can add more criteria, specify regular expression criteria, or remove the conditions altogether to return all athletes.

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var Athlete = mongoose.model('Athlete', yourSchema);
-
-// find all athletes who play tennis, selecting the 'name' and 'age' fields
-Athlete.find({ 'sport': 'Tennis' }, 'name age', function (err, athletes) {
-  if (err) return handleError(err);
-  // 'athletes' contains the list of athletes that match the criteria.
-})
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If you specify a callback, as shown above, the query will execute immediately. The callback will be invoked when the search completes.

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Note: All callbacks in Mongoose use the pattern callback(error, result). If an error occurs executing the query, the error parameter will contain an error document, and result will be null. If the query is successful, the error parameter will be null, and the result will be populated with the results of the query.

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If you don't specify a callback then the API will return a variable of type Query. You can use this query object to build up your query and then execute it (with a callback) later using the exec() method.

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// find all athletes that play tennis
-var query = Athlete.find({ 'sport': 'Tennis' });
-
-// selecting the 'name' and 'age' fields
-query.select('name age');
-
-// limit our results to 5 items
-query.limit(5);
-
-// sort by age
-query.sort({ age: -1 });
-
-// execute the query at a later time
-query.exec(function (err, athletes) {
-  if (err) return handleError(err);
-  // athletes contains an ordered list of 5 athletes who play Tennis
-})
- -

Above we've defined the query conditions in the find() method. We can also do this using a where() function, and we can chain all the parts of our query together using the dot operator (.) rather than adding them separately. The code fragment below is the same as our query above, with an additional condition for the age.

- -
Athlete.
-  find().
-  where('sport').equals('Tennis').
-  where('age').gt(17).lt(50).  //Additional where query
-  limit(5).
-  sort({ age: -1 }).
-  select('name age').
-  exec(callback); // where callback is the name of our callback function.
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The find() method gets all matching records, but often you just want to get one match. The following methods query for a single record:

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-

Note: There is also a count() method that you can use to get the number of items that match conditions. This is useful if you want to perform a count without actually fetching the records.

-
- -

There is a lot more you can do with queries. For more information see: Queries (Mongoose docs).

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You can create references from one document/model instance to another using the ObjectId schema field, or from one document to many using an array of ObjectIds. The field stores the id of the related model. If you need the actual content of the associated document, you can use the populate() method in a query to replace the id with the actual data.

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For example, the following schema defines authors and stories. Each author can have multiple stories, which we represent as an array of ObjectId. Each story can have a single author. The "ref" (highlighted in bold below) tells the schema which model can be assigned to this field.

- -
var mongoose = require('mongoose')
-  , Schema = mongoose.Schema
-
-var authorSchema = Schema({
-  name    : String,
-  stories : [{ type: Schema.Types.ObjectId, ref: 'Story' }]
-});
-
-var storySchema = Schema({
-  author : { type: Schema.Types.ObjectId, ref: 'Author' },
-  title    : String
-});
-
-var Story  = mongoose.model('Story', storySchema);
-var Author = mongoose.model('Author', authorSchema);
- -

We can save our references to the related document by assigning the _id value. Below we create an author, then a story, and assign the author id to our stories author field.

- -
var bob = new Author({ name: 'Bob Smith' });
-
-bob.save(function (err) {
-  if (err) return handleError(err);
-
-  //Bob now exists, so lets create a story
-  var story = new Story({
-    title: "Bob goes sledding",
-    author: bob._id    // assign the _id from the our author Bob. This ID is created by default!
-  });
-
-  story.save(function (err) {
-    if (err) return handleError(err);
-    // Bob now has his story
-  });
-});
- -

Our story document now has an author referenced by the author document's ID. In order to get the author information in our story results we use populate(), as shown below.

- -
Story
-.findOne({ title: 'Bob goes sledding' })
-.populate('author') //This populates the author id with actual author information!
-.exec(function (err, story) {
-  if (err) return handleError(err);
-  console.log('The author is %s', story.author.name);
-  // prints "The author is Bob Smith"
-});
- -
-

Note: Astute readers will have noted that we added an author to our story, but we didn't do anything to add our story to our author's stories array. How then can we get all stories by a particular author? One way would be to add our author to the stories array, but this would result in us having two places where the information relating authors and stories needs to be maintained.

- -

A better way is to get the _id of our author, then use find() to search for this in the author field across all stories.

- -
Story
-.find({ author : bob._id })
-.exec(function (err, stories) {
-  if (err) return handleError(err);
-  // returns all stories that have Bob's id as their author.
-});
-
-
- -

This is almost everything you need to know about working with related items for this tutorial. For more detailed information see Population (Mongoose docs).

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One schema/model per file

- -

While you can create schemas and models using any file structure you like, we highly recommend defining each model schema in its own module (file), exporting the method to create the model. This is shown below:

- -
// File: ./models/somemodel.js
-
-//Require Mongoose
-var mongoose = require('mongoose');
-
-//Define a schema
-var Schema = mongoose.Schema;
-
-var SomeModelSchema = new Schema({
-    a_string          : String,
-    a_date            : Date,
-});
-
-//Export function to create "SomeModel" model class
-module.exports = mongoose.model('SomeModel', SomeModelSchema );
- -

You can then require and use the model immediately in other files. Below we show how you might use it to get all instances of the model.

- -
//Create a SomeModel model just by requiring the module
-var SomeModel = require('../models/somemodel')
-
-// Use the SomeModel object (model) to find all SomeModel records
-SomeModel.find(callback_function);
- -

Setting up the MongoDB database

- -

Now that we understand something of what Mongoose can do and how we want to design our models, it's time to start work on the LocalLibrary website. The very first thing we want to do is set up a MongoDb database that we can use to store our library data.

- -

For this tutorial we're going to use mLab's free cloud-hosted "sandbox" database. This database tier is not considered suitable for production websites because it has no redundancy, but it is great for development and prototyping. We're using it here because it is free and easy to set up, and because mLab is a popular database as a service vendor that you might reasonably choose for your production database (other popular choices at the time of writing include Compose, ScaleGrid and MongoDB Atlas).

- -
-

Note: If you prefer you can set up a MongoDb database locally by downloading and installing the appropriate binaries for your system. The rest of the instructions in this article would be similar, except for the database URL you would specify when connecting.

-
- -

You will first need to create an account with mLab (this is free, and just requires that you enter basic contact details and acknowledge their terms of service). 

- -

After logging in, you'll be taken to the home screen:

- -
    -
  1. Click Create New in the MongoDB Deployments section.
    2. -
  2. This will open the Cloud Provider Selection screen.
    - MLab - screen for new deployment
    - -
      -
    • Select the SANDBOX (Free) plan from the Plan Type section. 
      • -
    • Select any provider from the Cloud Provider section. Different providers offer different regions (displayed below the selected plan type).
      • -
    • Click the Continue button.
      • -
    -
    3. -
  3. This will open the Select Region screen. -

    Select new region screen

    - -
      -
    • -

      Select the region closest to you and then Continue.

      -
      • -
    -
    4. -
  4. -

    This will open the Final Details screen.
    - New deployment database name

    - -
      -
    • -

      Enter the name for the new database as local_library and then select Continue.

      -
      • -
    -
    5. -
  5. -

    This will open the Order Confirmation screen.
    - Order confirmation screen

    - -
      -
    • -

      Click Submit Order to create the database.

      -
      • -
    -
    6. -
  6. -

    You will be returned to the home screen. Click on the new database you just created to open its details screen. As you can see the database has no collections (data).
    - mLab - Database details screen
    -  
    - The URL that you need to use to access your database is displayed on the form above (shown for this database circled above). In order to use this you need to create a database user that you can specify in the URL.

    -
    7. -
  7. Click the Users tab and select the Add database user button.
    8. -
  8. Enter a username and password (twice), and then press Create. Do not select Make read only.
    -
    9. -
- -

You have now created the database, and have an URL (with username and password) that can be used to access it. This will look something like: mongodb://your_user_namer:your_password@ds119748.mlab.com:19748/local_library.

- -

Install Mongoose

- -

Open a command prompt and navigate to the directory where you created your skeleton Local Library website. Enter the following command to install Mongoose (and its dependencies) and add it to your package.json file, unless you have already done so when reading the Mongoose Primer above.

- -
npm install mongoose
-
- -

Connect to MongoDB

- -

Open /app.js (in the root of your project) and copy the following text below where you declare the Express application object (after the line var app = express();). Replace the database url string ('insert_your_database_url_here') with the location URL representing your own database (i.e. using the information from mLab).

- -
//Set up mongoose connection
-var mongoose = require('mongoose');
-var mongoDB = 'insert_your_database_url_here';
-mongoose.connect(mongoDB);
-mongoose.Promise = global.Promise;
-var db = mongoose.connection;
-db.on('error', console.error.bind(console, 'MongoDB connection error:'));
- -

As discussed in the Mongoose primer above, this code creates the default connection to the database and binds to the error event (so that errors will be printed to the console). 

- -

Defining the LocalLibrary Schema

- -

We will define a separate module for each model, as discussed above. Start by creating a folder for our models in the project root (/models) and then create separate files for each of the models:

- -
/express-locallibrary-tutorial  //the project root
-  /models
-    author.js
-    book.js
-    bookinstance.js
-    genre.js
-
- -

Author model

- -

Copy the Author schema code shown below and paste it into your ./models/author.js file. The scheme defines an author has having String SchemaTypes for the first and family names, that are required and have a maximum of 100 characters, and Date fields for the date of birth and death.

- -
var mongoose = require('mongoose');
-
-var Schema = mongoose.Schema;
-
-var AuthorSchema = new Schema(
-  {
-    first_name: {type: String, required: true, max: 100},
-    family_name: {type: String, required: true, max: 100},
-    date_of_birth: {type: Date},
-    date_of_death: {type: Date},
-  }
-);
-
-// Virtual for author's full name
-AuthorSchema
-.virtual('name')
-.get(function () {
-  return this.family_name + ', ' + this.first_name;
-});
-
-// Virtual for author's lifespan
-AuthorSchema
-.virtual('lifespan')
-.get(function () {
-  return (this.date_of_death.getYear() - this.date_of_birth.getYear()).toString();
-});
-
-// Virtual for author's URL
-AuthorSchema
-.virtual('url')
-.get(function () {
-  return '/catalog/author/' + this._id;
-});
-
-//Export model
-module.exports = mongoose.model('Author', AuthorSchema);
-
-
- -

We've also declared a virtual for the AuthorSchema named "url" that returns the absolute URL required to get a particular instance of the model — we'll use the property in our templates whenever we need to get a link to a particular author.

- -
-

Note: Declaring our URLs as a virtual in the schema is a good idea because then the URL for an item only ever needs to be changed in one place.
- At this point, a link using this URL wouldn't work, because we haven't got any routes handling code for individual model instances. We'll set those up in a later article!

-
- -

At the end of the module we export the model.

- -

Book model

- -

Copy the Book schema code shown below and paste it into your ./models/book.js file. Most of this is similar to the author model — we've declared a schema with a number of string fields and a virtual for getting the URL of specific book records, and we've exported the model.

- -
var mongoose = require('mongoose');
-
-var Schema = mongoose.Schema;
-
-var BookSchema = new Schema(
-  {
-    title: {type: String, required: true},
-    author: {type: Schema.Types.ObjectId, ref: 'Author', required: true},
-    summary: {type: String, required: true},
-    isbn: {type: String, required: true},
-    genre: [{type: Schema.Types.ObjectId, ref: 'Genre'}]
-  }
-);
-
-// Virtual for book's URL
-BookSchema
-.virtual('url')
-.get(function () {
-  return '/catalog/book/' + this._id;
-});
-
-//Export model
-module.exports = mongoose.model('Book', BookSchema);
-
- -

The main difference here is that we've created two references to other models:

- - - -

BookInstance model

- -

Finally, copy the BookInstance schema code shown below and paste it into your ./models/bookinstance.js file. The BookInstance represents a specific copy of a book that someone might borrow, and includes information about whether the copy is available or on what date it is expected back, "imprint" or version details.

- -
var mongoose = require('mongoose');
-
-var Schema = mongoose.Schema;
-
-var BookInstanceSchema = new Schema(
-  {
-    book: { type: Schema.Types.ObjectId, ref: 'Book', required: true }, //reference to the associated book
-    imprint: {type: String, required: true},
-    status: {type: String, required: true, enum: ['Available', 'Maintenance', 'Loaned', 'Reserved'], default: 'Maintenance'},
-    due_back: {type: Date, default: Date.now}
-  }
-);
-
-// Virtual for bookinstance's URL
-BookInstanceSchema
-.virtual('url')
-.get(function () {
-  return '/catalog/bookinstance/' + this._id;
-});
-
-//Export model
-module.exports = mongoose.model('BookInstance', BookInstanceSchema);
- -

The new things we show here are the field options:

- - - -

Everything else should be familiar from our previous schema.

- -

Genre model - challenge!

- -

Open your ./models/genre.js file and create a schema for storing genres (the category of book, e.g. whether it is fiction or non-fiction, romance or military history, etc).

- -

The definition will be very similar to the other models:

- - - -

Testing — create some items

- -

That's it. We now have all models for the site set up!

- -

In order to test the models (and to create some example books and other items that we can use in our next articles) we'll now run an independent script to create items of each type:

- -
    -
  1. Download (or otherwise create) the file populatedb.js inside your express-locallibrary-tutorial directory (in the same level as package.json). - -
    -

    Note: You don't need to know how populatedb.js works; it just adds sample data into the database.

    -
    -
    2. -
  2. Enter the following commands in the project root to install the async module that is required by the script (we'll discuss this in later tutorials, ) - 
    npm install async
    -
    3. -
  3. Run the script using node in your command prompt, passing in the URL of your MongoDB database (the same one you replaced the insert_your_database_url_here placeholder with, inside app.js earlier): - 
    node populatedb <your mongodb url>​​​​
    -
    4. -
  4. The script should run through to completion, displaying items as it creates them in the terminal.
    5. -
- -
-

Tip: Go to your database on mLab. You should now be able to drill down into individual collections of Books, Authors, Genres and BookInstances, and check out individual documents.

-
- -

Summary

- -

In this article, we've learned a bit about databases and ORMs on Node/Express, and a lot about how Mongoose schema and models are defined. We then used this information to design and implement Book, BookInstance, Author and Genre models for the LocalLibrary website.

- -

Last of all we tested our models by creating a number of instances (using a standalone script). In the next article we'll look at creating some pages to display these objects.

- -

See also

- - - -

{{PreviousMenuNext("Learn/Server-side/Express_Nodejs/skeleton_website", "Learn/Server-side/Express_Nodejs/routes", "Learn/Server-side/Express_Nodejs")}}

- -

 

- -

In this module

- - - -

 

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