Note: docs are not always up to date because orm is in active development. Samples are more up to date, try to find your questions there. Otherwise create a github issue.
Note: Current version of orm works with typescript >1.9. It means you need to install typescript@next to work with it. If you want to use older version of orm you can try to install [email protected]
TypeORM is an Object Relational Mapper (ORM) for node.js written in Typescript that can be used with Typescript or Javascript (ES5, ES6, ES7). Its goal to always support latest Javascript features and provide features that help you to develop any kind of applications that use database - from small applications with a few tables to large scale enterprise applications. TypeORM helps you to:
- automatically create in the database table schemas based on your models
- ability to transparently insert / update / delete to the database your objects
- map your selections from tables to javascript objects and map table columns to javascript object's properties
- create one-to-one, many-to-one, one-to-many, many-to-many relations between tables
- and much more ...
TypeORM uses Data Mapper pattern, unlike all other javascript ORMs that currently exist, which means you can write loosely coupled, scalable, maintainable applications with less problems.
The benefit of using ORM for the programmer is the ability to focus on the business logic and worry about persistence only as a secondary problem.
TypeORM is highly influenced by other ORMs, such as Hibernate and Doctrine.
-
Install module:
npm install typeorm --save
-
Install required shims:
npm install es6-shim reflect-metadata --save
And add these lines into some global place in your code, before you starting to use orm:
require("es6-shim");
require("reflect-metadata");
es6-shim
is optional for newer versions of node which supports all es6 features.
reflect-metadata
you definitely need because no platform support this feature yet.
-
Install database driver:
3.1. Mysql
If you want to use ORM with mysql then install its driver: `npm install mysql --save`
3.2. Postgres (still in development, don't use it yet)
`npm install pg --save`
Right now only
mysql
andpostgres
databases are supported. Feel free to contribute and add support of new drivers.
Lets create a sample application - a photo album.
First we create a new file Photo.ts
and put a class there:
import {Table} from "typeorm/tables";
import {PrimaryColumn, Column} from "typeorm/columns";
@Table("photo")
export class Photo {
@PrimaryColumn("int", { generated: true })
id: number;
@Column()
name: string;
@Column()
description: string;
@Column()
filename: string;
@Column()
isPublished: boolean;
}
Here, we are using three decorators:
@Table(tableName)
- tells ORM to create a new table in the database for this class. We also specified a table name in the database.@PrimaryColumn(columnType, columnOptions)
- tells ORM to create a table column for the given class property and make it PRIMARY KEY column. We also set{ generated: true }
in column options, which makes our primary column an AUTO_INCREMENT.@Column(columnType, columnOptions)
- tells ORM to create a table column for the given class property.
Now lets run bootstrap our application and connect to the database. Create
app.ts
:
import {createConnection, CreateConnectionOptions} from "typeorm";
import {Photo} from "./Photo";
const options: CreateConnectionOptions = {
driver: "mysql", // specify driver type here. Right now only "mysql" is supported
connection: {
host: "localhost", // mysql host
port: 3306, // mysql port
username: "root", // mysql database username
password: "admin", // mysql database password
database: "test", // mysql database name
autoSchemaCreate: true // if set to true, then database schema will be automatically created on each application start
},
entities: [Photo] // array of classes you want to create tables for (and work with them in the current connection)
};
createConnection(options).then(connection => {
// at this point you are connected to the database, and you can
// perform queries
}).catch(error => console.log("Error during connection to the db: ", error));
Now run your app.ts
. ORM will automatically create a photo
table in
the test
database:
+-------------+--------------+----------------------------+
| photo |
+-------------+--------------+----------------------------+
| id | int(11) | PRIMARY KEY AUTO_INCREMENT |
| name | varchar(255) | |
| description | varchar(255) | |
| filename | varchar(255) | |
| isPublished | boolean | |
+-------------+--------------+----------------------------+
Now lets create a new Photo, and persist it to the database.
createConnection(options).then(connection => {
let photo = new Photo();
photo.name = "Me and Bears";
photo.description = "I am near polar bears";
photo.filename = "photo-with-bears.jpg"
photo.isPublished = true;
let repository = connection.getRepository(Photo);
repository.persist(photo).then(photo => {
console.log("Photo has been persisted to the database.");
console.log("New photo id is ", photo.id);
});
});
If you want to load photos from the database, you can use repository.find*
methods:
// here we load one photo by id:
let photoId = 1;
let repository = connection.getRepository(Photo);
repository.findById(photoId).then(photo => {
console.log("Photo is loaded: ", photo);
});
// here we load one photo by name
repository.findOne({ name: "Me and Bears" }).then(photo => {
console.log("Photo is loaded: ", photo);
});
// here we load all published photos
repository.find({ isPublished: true }).then(photos => {
console.log("Published photos are loaded: ", photos);
});
If you want to update in the database a previously loaded photo, you
can use repository.persist
method:
// change previously loaded photo
photo.name = "Me and Bears and Penguins";
photo.description = "I am near polar bears and penguins";
// call persist method to update a photo
let repository = connection.getRepository(Photo);
repository.persist(photo).then(photo => {
console.log("Photo is updated in the database: ", photo);
});
If you want to remove a photo from the database, you can use
repository.remove
method:
let repository = connection.getRepository(Photo);
repository.remove(photo).then(() => {
console.log("Photo has been successfully removed.");
});
Lets create a one-to-one relation with another class. Lets create a new
class called PhotoMetadata.ts
which will contain a PhotoMetadata
class
which supposed to be contain our Photo's additional meta-information:
import {Table} from "typeorm/tables";
import {PrimaryColumn, Column} from "typeorm/columns";
import {OneToOne, JoinColumn} from "typeorm/relations";
@Table("photo_metadata")
export class PhotoMetadata {
@PrimaryColumn("int", { generated: true })
id: number;
@Column()
height: number;
@Column()
width: number;
@Column()
comment: string;
@Column()
compressed: boolean;
@Column()
orientation: string;
@OneToOne(type => Photo, photo => photo.metadata) // note: we will create metadata property in the Photo class below
@JoinColumn()
photo: Photo;
}
Here, we are using a new decorator called @OneToOne
. It allows to
create one-to-one relations between two entities. @OneToOne
decorator
accepts two arguments:
type => Photo
is a function that returns the class of the entity with which relation we want to make our relation.
we are forced to use a function that returns a class, instead of using class directly, because of the language specifics. We can also write it as a
() => Photo
, but we usetype => Photo
as convention to increase code readability a bit.type
variable itself does not contain anything.
photo => photo.metadata
is a function that returns a name of the inverse side of the relation. Here we show thatmetadata
property of thePhoto
class is where we storePhotoMetadata
in thePhoto
class.
you could also instead of passing function that returns a property of the photo simply pass a string to @OneToOne decorator, like "metadata". But we used this function-typed approach to make your refactorings easier.
We also put @JoinColumn
decorator, that indicates that this side of the relationship
will be owning relationship. Using this decorator is required on owner side of the relationship.
Now lets add inverse side of our relation to the Photo
class:
export class Photo {
/// ... other columns
@OneToOne(type => PhotoMetadata, metadata => metadata.photo)
metadata: PhotoMetadata;
}
In any relation there are always two sides and only one of them can be owner side. Owner side
is called "owner", because it "owns" relation id. In our example
PhotoMetadata
owns relation because it has a @JoinColumn
decorator, thus
it will contain photo id. Photo
entity does not have @JoinColumn
, thus
does not have metadata id, and it means that its inverse side of the relationship.
After you run application ORM will create a photo_metadata table:
+-------------+--------------+----------------------------+
| photo_metadata |
+-------------+--------------+----------------------------+
| id | int(11) | PRIMARY KEY AUTO_INCREMENT |
| height | double | |
| width | double | |
| comment | varchar(255) | |
| compressed | boolean | |
| orientation | varchar(255) | |
| photo | int(11) | FOREIGN KEY |
+-------------+--------------+----------------------------+
Don't forget to register PhotoMetadata
class for your connection in the ORM:
const options: CreateConnectionOptions = {
// ... other options
entities: [Photo, PhotoMetadata]
};
Now lets insert metadata and photo to our database:
createConnection(options).then(connection => {
// create photo object
let photo = new Photo();
photo.name = "Me and Bears";
photo.description = "I am near polar bears";
photo.filename = "photo-with-bears.jpg"
photo.isPublished = true;
// create photo metadata object
let metadata = new PhotoMetadata();
metadata.height = 640;
metadata.width = 480;
metadata.compressed = true;
metadata.comment = "cybershoot";
metadata.orientation = "portait";
metadata.photo = photo; // this way we connect them
// get entity repositories
let photoRepository = connection.getRepository(Photo);
let metadataRepository = connection.getRepository(PhotoMetadata);
// first we should persist a photo
photoRepository.persist(photo).then(photo => {
// photo is saved. Now we need to persist a photo metadata
return metadataRepository.persist(metadata);
}).then(metadata => {
// metadata is saved, and relation between metadata and photo is created in the database too
});
});
We can setup cascade options in our relations, in the cases when we want
our related object to be persisted whenever other object is saved. Let's
change our photo's @OneToOne
decorator a bit:
export class Photo {
/// ... other columns
@OneToOne(type => PhotoMetadata, metadata => metadata.photo, {
cascadeInsert: true,
cascadeUpdate: true,
cascadeRemove: true
})
metadata: PhotoMetadata;
}
cascadeInsert
automatically insert metadata in the relation if it does not exist in its table. This means that we don't need to manually insert a newly created photoMetadata object.cascadeUpdate
automatically update metadata in the relation if in this object something is changedcascadeRemove
automatically remove metadata from its table if you removed metadata from photo object
Using cascadeInsert
allows us not to separately persist photo and
separately persist metadata objects now. Now we can simply persist a
photo object, and metadata object will persist automatically because of
cascade options.
createConnection(options).then(connection => {
// create photo object
let photo = new Photo();
photo.name = "Me and Bears";
photo.description = "I am near polar bears";
photo.filename = "photo-with-bears.jpg"
photo.isPublished = true;
// create photo metadata object
let metadata = new PhotoMetadata();
metadata.height = 640;
metadata.width = 480;
metadata.compressed = true;
metadata.comment = "cybershoot";
metadata.orientation = "portait";
metadata.photo = photo; // this way we connect them
// get repository
let photoRepository = connection.getRepository(Photo);
// first we should persist a photo
photoRepository.persist(photo).then(photo => {
console.log("Photo is saved, photo metadata is saved too.")
});
});
Lets create a many-to-one / one-to-many relation. Lets say a photo has
one author, and each author can have many photos. First, lets create a
Author
class:
import {Table} from "typeorm/tables";
import {PrimaryColumn, Column} from "typeorm/columns";
import {OneToMany} from "typeorm/relations";
@Table("author")
export class Author {
@PrimaryColumn("int", { generated: true })
id: number;
@Column()
name: string;
@OneToMany(type => Photo, photo => photo.author) // note: we will create author property in the Photo class below
photos: Photo[];
}
Now lets add inverse side of our relation to the Photo
class:
export class Photo {
/// ... other columns
@ManyToOne(type => Author, author => author.photos)
author: Author;
}
In case of many-to-one / one-to-many relation, owner relation is many-to-one.
It means that class which uses @ManyToOne
will store id of the related
object.
After you run application ORM will create author table:
+-------------+--------------+----------------------------+
| author |
+-------------+--------------+----------------------------+
| id | int(11) | PRIMARY KEY AUTO_INCREMENT |
| name | varchar(255) | |
+-------------+--------------+----------------------------+
It will also modify photo table - add a new column author
and create
a foreign key for it:
+-------------+--------------+----------------------------+
| photo |
+-------------+--------------+----------------------------+
| id | int(11) | PRIMARY KEY AUTO_INCREMENT |
| name | varchar(255) | |
| description | varchar(255) | |
| filename | varchar(255) | |
| isPublished | boolean | |
| author | int(11) | FOREIGN KEY |
+-------------+--------------+----------------------------+
Don't forget to register Author
class for your connection in the ORM:
const options: CreateConnectionOptions = {
// ... other options
entities: [Photo, PhotoMetadata, Author]
};
Now lets insert author and photo to our database:
createConnection(options).then(connection => {
// create a new user
let author = new Author();
author.name = "Umed Khudoiberdiev";
// create photo object
let photo = new Photo();
photo.name = "Me and Bears";
photo.description = "I am near polar bears";
photo.filename = "photo-with-bears.jpg"
photo.author = author;
// get entity repositories
let photoRepository = connection.getRepository(Photo);
let authorRepository = connection.getRepository(Author);
// first we should persist our user
authorRepository.persist(author).then(author => {
// author is saved. Now we need to persist a photo
return photoRepository.persist(photo);
}).then(photo => {
// photo is saved, and relation between photo and author is created in the database too
});
});
Lets create a many-to-one / many-to-many relation. Lets say a photo can
be in many albums, and multiple can have many photos. Lets create an
Album
class:
import {Table} from "typeorm/tables";
import {PrimaryColumn, Column} from "typeorm/columns";
import {ManyToMany, JoinTable} from "typeorm/relations";
@Table("album")
export class Album {
@PrimaryColumn("int", { generated: true })
id: number;
@Column()
name: string;
@ManyToMany(type => Photo, album => photo.albums, { // note: we will create "albums" property in the Photo class below
cascadeInsert: true, // allow to insert a new photo on album save
cascadeUpdate: true, // allow to update a photo on album save
cascadeRemove: true // allow to remove a photo on album remove
})
@JoinTable()
photos: Photo[] = []; // we initialize array for convinience here
}
@JoinTable
is required to specify that this is owner side of the relationship.
Now lets add inverse side of our relation to the Photo
class:
export class Photo {
/// ... other columns
@ManyToMany(type => Album, album => album.photos, {
cascadeInsert: true, // allow to insert a new album on photo save
cascadeUpdate: true, // allow to update an album on photo save
cascadeRemove: true // allow to remove an album on photo remove
})
albums: Album[] = []; // we initialize array for convinience here
}
After you run application ORM will create a album_photos_photo_albums junction table:
+-------------+--------------+----------------------------+
| album_photos_photo_albums |
+-------------+--------------+----------------------------+
| album_id_1 | int(11) | FOREIGN KEY |
| photo_id_2 | int(11) | FOREIGN KEY |
+-------------+--------------+----------------------------+
Don't forget to register Album
class for your connection in the ORM:
const options: CreateConnectionOptions = {
// ... other options
entities: [Photo, PhotoMetadata, Author, Album]
};
Now lets insert author and photo to our database:
createConnection(options).then(connection => {
// create a few albums
let album1 = new Album();
album1.name = "Bears";
let album2 = new Album();
album2.name = "Me";
// create a few photos
let photo1 = new Photo();
photo1.name = "Me and Bears";
photo1.description = "I am near polar bears";
photo1.filename = "photo-with-bears.jpg"
let photo2 = new Photo();
photo2.name = "Me and Bears";
photo2.description = "I am near polar bears";
photo2.filename = "photo-with-bears.jpg"
// get entity repository
let photoRepository = connection.getRepository(Photo);
// we only save a photos, albums are persisted automatically because of cascade options
photoRepository
.persist(photo1) // first save a first photo
.then(photo => photoRepository.persist(photo2)) // second save a second photo
.then(photo => console.log("Both photos have been saved"));
});
Repository.find
method allows you to specify findOptions
. Using this
you can customize your query to perform more complex queries. For example
you can do this:
let photoRepository = connection.getRepository(Photo);
photoRepository.find({
alias: "photo", // this is alias of what you are selecting - photos. You must specify it.
innerJoinAndSelect: [
"photo.metadata"
],
leftJoinAndSelect: [
"photo.albums"
],
where: "photo.isPublished=true AND (photo.name=:photoName OR photo.name=:bearName)",
orderBy: [{ sort: "photo.id", order: "DESC" }],
firstResult: 5,
maxResults: 10,
parameters: {
photoName: "My",
bearName: "Mishka"
}
}).then(photos => {
console.log(photos);
});
photoRepository.find
will select you all photos that are published and
whose name is "My" or "Mishka", it will select results from 5 position
(pagination offset), and will select only 10 results (pagination limit).
Selection result will be ordered by id in descending order. Photo's albums
will be left-joined and photo's metadata will be inner joined.
Learn more about FindOptions here.
You can use QueryBuilder
to build even more complex queries. For example
you can do this:
let photoRepository = connection.getRepository(Photo);
photoRepository
.createQueryBuilder("photo") // first argument is an alias. Alias is what you are selecting - photos. You must specify it.
.innerJoinAndSelect("photo.metadata")
.leftJoinAndSelect("photo.albums")
.where("photo.isPublished=true")
.andWhere("photo.name=:photoName OR photo.name=:bearName")
.orderBy("photo.id", "DESC")
.setFirstResult(5)
.setMaxResults(10)
.setParameters({ photoName: "My", beaName: "Mishka" })
.getResults().then(photos => console.log(photos));
This query builder will select you all photos that are published and whose name is "My" or "Mishka", it will select results from 5 position (pagination offset), and will select only 10 results (pagination limit). Selection result will be ordered by id in descending order. Photo's albums will be left-joined and photo's metadata will be inner joined.
Learn more about QueryBuilder here.
Sometimes you may want to simplify what you are doing and not to create
a repository
instance for each of your entity to, for example, persist
it. In such cases you may want to use EntityManager. These are several
methods from EntityManager class:
// create a new user
let author = new Author();
author.name = "Umed Khudoiberdiev";
// create photo metadata
let metadata = new PhotoMetadata();
metadata.height = 640;
metadata.width = 480;
metadata.compressed = true;
metadata.comment = "cybershoot";
metadata.orientation = "portait";
metadata.photo = photo; // this way we connect them
// create a new photo
let photo = new Photo();
photo.name = "Me and Bears";
photo.description = "I am near polar bears";
photo.filename = "photo-with-bears.jpg";
photo.author = author;
photo.metadata = metadata;
let entityManager = connection.getEntityManager();
// first lets persist entities
entityManager
.persist(author) // first lets save a new author
.then(savedAuthor => entityManager.persist(metadata)); // then save a new metadata
.then(savedMetadata => entityManager.persist(photo)); // and finally save a photo
.then(savedPhoto => {
console.log("Everything is saved without using repositories")
// next example is about finding entity and removing it
entityManager.find(Photo, { isPublished: true }).then(photos => {
// and final example about removing entities
return Promise.all(photos.map(photo => entityManager.remove(photo)));
});
});
Learn more about EntityManager here.
- connection and connection options
- databases and drivers
- updating database schema
- tables and table inheritance
- table columns
- relations
- indices and keys
- repository
- query builder
- entity manager
- subscribers and entity listeners
- naming strategies
- decorators reference
- command line tools
Take a look on samples in ./sample for more examples of usages.
ORM development is in progress. Api can be changed a lot. More documentation and features expected to be soon. Feel free to contribute.