mikro-orm
Advanced tools
Simple typescript mongo ORM for node.js based on data-mapper, unit-of-work and identity-map patterns
Mikro-ORM is a TypeScript ORM for Node.js based on Data Mapper, Unit of Work, and Identity Map patterns. It supports multiple databases including MongoDB, MySQL, PostgreSQL, SQLite, and MariaDB. It provides a powerful and flexible way to interact with your database using TypeScript and JavaScript.
Entity Definition
Defines an entity with properties that map to database columns. The `@Entity` decorator marks the class as a database entity, while `@PrimaryKey` and `@Property` decorators define the primary key and other properties respectively.
```typescript
import { Entity, PrimaryKey, Property } from 'mikro-orm';
@Entity()
class User {
@PrimaryKey()
id!: number;
@Property()
name!: string;
@Property()
email!: string;
}
```CRUD Operations
Demonstrates basic Create, Read, Update, and Delete (CRUD) operations. The `persistAndFlush` method saves a new entity to the database, and the `find` method retrieves entities from the database.
```typescript
const user = new User();
user.name = 'John Doe';
user.email = 'john.doe@example.com';
await orm.em.persistAndFlush(user);
const users = await orm.em.find(User, {});
console.log(users);
```Query Builder
Shows how to use the query builder to construct and execute complex queries. The `createQueryBuilder` method creates a new query builder instance, and the `select` and `where` methods build the query.
```typescript
const qb = orm.em.createQueryBuilder(User);
const users = await qb.select('*').where({ name: 'John Doe' }).execute();
console.log(users);
```Transactions
Illustrates how to perform operations within a transaction. The `transactional` method ensures that all operations within the callback are executed within a single transaction.
```typescript
await orm.em.transactional(async em => {
const user = new User();
user.name = 'Jane Doe';
user.email = 'jane.doe@example.com';
await em.persistAndFlush(user);
});
```TypeORM is another TypeScript ORM for Node.js that supports Active Record and Data Mapper patterns. It is highly popular and supports multiple databases. Compared to Mikro-ORM, TypeORM has a larger community and more extensive documentation, but Mikro-ORM offers a more modern and flexible API.
Sequelize is a promise-based Node.js ORM for Postgres, MySQL, MariaDB, SQLite, and Microsoft SQL Server. It is known for its simplicity and ease of use. While Sequelize is more mature and has a larger user base, Mikro-ORM provides better TypeScript support and more advanced features like Unit of Work and Identity Map patterns.
Objection.js is an SQL-friendly ORM for Node.js, built on top of the SQL query builder Knex.js. It aims to stay as close to the SQL syntax as possible while providing a powerful and flexible API. Compared to Mikro-ORM, Objection.js offers more control over raw SQL queries but lacks some of the higher-level abstractions and features provided by Mikro-ORM.
Simple typescript mongo ORM for node.js based on data-mapper, unit-of-work and identity-map patterns.
Heavily inspired by doctrine.
import { BaseEntity, Entity, ManyToOne, Property } from 'mikro-orm';
import { Publisher } from './Publisher';
import { Author } from './Author';
import { BookRepository } from './BookRepository';
@Entity({ collection: 'books-table', customRepository: BookRepository })
export class Book extends BaseEntity {
@Property()
title: string;
@ManyToOne({ entity: () => Author.name })
author: Author;
@ManyToOne({ entity: () => Publisher.name })
publisher: Publisher;
@Property()
metaObject: object;
@Property()
metaArray: any[];
@Property()
metaArrayOfStrings: string[];
constructor(title: string, author: Author) {
super();
this.title = title;
this.author = author;
this.metaObject = {};
this.metaArray = [{test: 123, lol: true}];
this.metaArrayOfStrings = ['test'];
}
}
$ yarn add mikro-orm
or
$ npm install mikro-orm
For more examples, take a look at tests/EntityManager.test.ts.
import { MikroORM, Collection } from 'mikro-orm';
const orm = await MikroORM.init({
entitiesDirs: ['entities'], // relative to `baseDir`
dbName: 'my-db-name',
baseDir: __dirname,
});
console.log(orm.em); // EntityManager
To save entity state to database, you need to persist it. Persist takes care or deciding
whether to use insert or update and computes appropriate change-set. Entity references
that are not persisted yet (does not have identifier) will be cascade persisted automatically.
// use constructors in your entities for required parameters
const author = new Author('Jon Snow', 'snow@wall.st');
author.born = new Date();
const publisher = new Publisher('7K publisher');
const book1 = new Book('My Life on The Wall, part 1', author);
book1.publisher = publisher;
const book2 = new Book('My Life on The Wall, part 2', author);
book2.publisher = publisher;
const book3 = new Book('My Life on The Wall, part 3', author);
book3.publisher = publisher;
// just persist books, author and publisher will be automatically cascade persisted
await orm.em.persist([book1, book2, book3]);
// or one by one
await orm.em.persist(book1, false);
await orm.em.persist(book2, false);
await orm.em.persist(book3); // flush everything to database at once
EntityManagerTo fetch entities from database you can use find() and findOne() of EntityManager.
const author = orm.em.findOne(Author.name, '...id...');
const books = orm.em.find(Book.name, {});
for (const author of authors) {
console.log(author.name); // Jon Snow
for (const book of author.books) {
console.log(book.title); // initialized
console.log(book.author.isInitialized()); // true
console.log(book.author.id);
console.log(book.author.name); // Jon Snow
console.log(book.publisher); // just reference
console.log(book.publisher.isInitialized()); // false
console.log(book.publisher.id);
console.log(book.publisher.name); // undefined
}
}
EntityRepository instead of EntityManagerMore convenient way of fetching entities from database is by using EntityRepository:
const booksRepository = orm.em.getRepository<Book>(Book.name);
// with sorting, limit and offset parameters, populating author references
const books = await booksRepository.find({ author: '...' }, ['author'], { title: -1 }, 2, 1);
console.log(books); // Book[]
TODO
MikroORM uses identity map in background so you will always get the same instance of
one entity.
const authorRepository = orm.em.getRepository<Author>(Author.name);
const jon = await authorRepository.findOne({ name: 'Jon Snow' }, ['books']);
const authors = await authorRepository.findAll(['books']);
// identity map in action
console.log(jon === authors[0]); // true
Every single entity relation is mapped to an entity reference. Reference is an entity that has only its identifier. This reference is stored in identity map so you will get the same object reference when fetching the same document from database.
You can call await entity.init() to initialize the entity. This will trigger database call
and populate itself, keeping the same reference in identity map.
const author = await orm.em.getReference('...id...');
console.log(author.id); // accessing the id will not trigger any db call
console.log(author.isInitialized()); // false
console.log(author.name); // undefined
await author.init(); // this will trigger db call
console.log(author.isInitialized()); // true
console.log(author.name); // defined
OneToMany and ManyToMany collections are stored in a Collection wrapper. It implements
iterator so you can use for of loop to iterate through it.
const author = orm.em.findOne(Author.name, '...');
console.log(author.name); // Jon Snow
await author.books.init(); // init all books
for (const book of author.books) {
console.log(book.title); // initialized
console.log(book.author.isInitialized()); // true
console.log(book.author.id);
console.log(book.author.name); // Jon Snow
console.log(book.publisher); // just reference
console.log(book.publisher.isInitialized()); // false
console.log(book.publisher.id);
console.log(book.publisher.name); // undefined
}
// collection needs to be initialized before you can work with it
author.books.add(book);
console.log(author.books.contains(book)); // true
author.books.remove(book);
console.log(author.books.contains(book)); // false
author.books.add(book);
console.log(author.books.count()); // 1
author.books.removeAll();
console.log(author.books.contains(book)); // false
console.log(author.books.count()); // 0
console.log(author.books.getItems()); // 0
console.log(author.books.getIdentifiers()); // array of ObjectID
console.log(author.books.getIdentifiers('id')); // array of string
FAQs
TypeScript ORM for Node.js based on Data Mapper, Unit of Work and Identity Map patterns. Supports MongoDB, MySQL, PostgreSQL and SQLite databases as well as usage with vanilla JavaScript.
The npm package mikro-orm receives a total of 176,094 weekly downloads. As such, mikro-orm popularity was classified as popular.
We found that mikro-orm demonstrated a healthy version release cadence and project activity because the last version was released less than a year ago. It has 1 open source maintainer collaborating on the project.
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