Huge News!Announcing our $40M Series B led by Abstract Ventures.Learn More
Socket
Sign inDemoInstall
Socket

mongot

Package Overview
Dependencies
Maintainers
1
Versions
43
Alerts
File Explorer

Advanced tools

Socket logo

Install Socket

Detect and block malicious and high-risk dependencies

Install

mongot

MongoT is a modern ODM library for MongoDb.

  • 1.4.18
  • Source
  • npm
  • Socket score

Version published
Weekly downloads
9
decreased by-18.18%
Maintainers
1
Weekly downloads
 
Created
Source

MongoT

MongoT is a modern ODM library for MongoDb.

Install

Just type npm i -S mongot to install this package.

Usage

Configure

You may need TypeScript 2+ and should enable experimentalDecorators, emitDecoratorMetadata in your tsconfig.json.

Collections

A collection is a class which support CRUD operations for own documents.

Create a collection

Let's create a simple collection and name it as UserCollection:

# UserCollection.ts
import {Collection, collection} from 'mongot'; 
import {UserDocument} from './UserDocument';

@index('login', {unique: true})
@collection('users', UserDocument)
class UserCollection extends Collection<UserDocument> {
    findByEmail(email: string) {
        return this.findOne({email});
    }
}

Any collections should refer to their own document schemas so we link the class UserCollection to a users collection in database and a UserDocument schema by a @collection decorator.

Document Schema

A document class describes a schema (document properties, getters/setters, hooks for insertions/updates and helper functions).

Schema supports these types: ObjectID, string, boolean, number, date, Object, SchemaFragment (also known as sub-document) and array. A buffer type doesn't tested at this time.

Create schema

To describe schema you need write a class with some properties decorated with @prop decorator and define property type. Just look at UserDocument schema example:

# UserDocument.ts
import {SchemaDocument, SchemaFragment, Events} from 'mongot';
import {hook, prop, document} from 'mongot';
import * as crypto from 'crypto';

@fragment
class UserContactsFragment extends SchemaFragment {
    type: 'phone' | 'email' | 'im';
    title: string;
    value: string;
}

@document
class UserDocument extends SchemaDocument {
    @prop 
    public email: string;
    
    @prop 
    public password: string;
    
    @prop
    public firstName: string;
    
    @prop
    public lastName: string;
    
    @prop 
    registered: Date = new Date();
    
    @prop 
    updated: Date;
    
    @prop(UserContactsFragment) 
    children: SchemaFragmentArray<UserContactsFragment>;
    
    @hook(Events.beforeUpdate)
    refreshUpdated() {
        this.updated = new Date();
    }
    
    get displayName() {
        return [this.firstName, this.lastName]
            .filter(x => !!x)
            .join(' ') || 'Unknown';
    }
    
    checkPassword(password: string) {
        return this.password === crypto.createHash('sha1')
            .update(password)
            .digest('hex');
    }
}

Usage

Repository

Repository is an util for creating connections to server and get connected collections.

Example:

# index.ts
import {Repository} from 'mongot';

const options = {};
const repository = new Repository('mongodb://localhost/test', options);

The Repository class constructor has same arguments that MongoClient.

Documents

You can creating documents in two ways.

Using Collection.factory method:

# document-factory.ts
import {Repository} from 'mongot';
import {UserCollection} from './UserCollection';

const repository = new Repository('mongodb://localhost/test', {});

async function main(): void {
    const users: UserCollection = repository.get(UserCollection);
    const user = users.factory({
        email: 'username@example.com',
        firstName: 'Bob'
    });
    
    console.log(user);

    // saving document
    await users.save(user);
}

main();

Using DocumentSchema constructor:

# document-constructor.ts
import {Repository} from 'mongot';
import {UserCollection} from './UserCollection';

const repository = new Repository('mongodb://localhost/test', {});

async function main(): void {
    const users: UserCollection = repository.get(UserCollection);
    const user = new UsersDocument({
        email: 'username@example.com',
        firstName: 'Bob'
    });
    
    // or UsersDocument.factory(...)
    
    console.log(user);

    // saving document
    await users.save(user);
}

main();
Safe merging

When you need update a document you can use safe document merging:

# document-safe-merging.ts
import {Repository} from 'mongot';
import {UserCollection} from './UserCollection';

const repository = new Repository('mongodb://localhost/test', {});

async function main(): void {
    const users: UserCollection = repository.get(UserCollection);
    const user = users.findOne();
    
    user.merge({lastName: 'Bond'});
    
    // save changes
    users.save(user);
}

main();

This method saves data described in document schema only.

Read queries

Get connected collection to execute find query over:

# find.ts
import {Repository} from 'mongot';
import {UserCollection} from './UserCollection';

const repository = new Repository('mongodb://localhost/test', {});

async function main(): void {
    const users: UserCollection = repository.get(UserCollection);
    const user = await users.findByEmail('username@example.com');
    
    console.log(user);
}

main();

You can use any of these Collection methods for querying: findOne, find and aggregate (see specs for help).

Write queries
# update.ts
import {Repository, ObjectID} from 'mongot';
import {UserCollection} from './UserCollection';

const options = {};
const repository = new Repository('mongodb://localhost/test', options);

async function main(): void {
    const users: UserCollection = repository.get(UserCollection);
    const user = await users.findOne();
    user.updated = new Date();
    users.save(user);
}

main();

Collection method save saves any data for DocumentSchema types. You also can use these Collection methods: updateOne, findOneAndUpdate, updateMany (see specs for help);

Partial

You can use projection and aggregation with partial schemas:

# partial.ts
import {PartialDocumentFragment, prop} from 'mongot';
import {UserCollection} from './UserCollection';

// initialize repo ...

@fragment
class PartialUser extends PartialDocumentFragment {
    @prop email: strng;
    @prop created: Date;
}

(async function() {
    const Users = repository.get(UserCollection);
    const partialUser = await (await Users.find())
        .map(doc => PartialUser.factory(doc))
        .project<PartialUser>({email, created})
        .fetch();
    
    console.log(partialUser instanceof PartialDocumentFragment); // true
)();
Virtual getter

You can mark a schema getter by @virtual decorator if you want to serialize the getter value with toJSON() or toObject().

Example


@document
class UserDocument extends SchemaDocument {
    @prop firstName: string;
    @prop lastName?: string;
    
    @virtual get displayName(): string {
        return [this.firstName, this.lastName]
            .filter(x => !!x)
            .join(' ')
    }
}

const user = new UserDocument({firstName: 'User', lastName: 'Name'});
console.log(JSON.stringify(user));

you'll get

{
  "firstName": "User",
  "lastName": "Name",
  "displayName": "User Name"
}

License

MIT

Keywords

FAQs

Package last updated on 17 Nov 2017

Did you know?

Socket

Socket for GitHub automatically highlights issues in each pull request and monitors the health of all your open source dependencies. Discover the contents of your packages and block harmful activity before you install or update your dependencies.

Install

Related posts

SocketSocket SOC 2 Logo

Product

  • Package Alerts
  • Integrations
  • Docs
  • Pricing
  • FAQ
  • Roadmap
  • Changelog

Packages

npm

Stay in touch

Get open source security insights delivered straight into your inbox.


  • Terms
  • Privacy
  • Security

Made with ⚡️ by Socket Inc