Security News
Weekly Downloads Now Available in npm Package Search Results
Socket's package search now displays weekly downloads for npm packages, helping developers quickly assess popularity and make more informed decisions.
[![Node.js version](https://img.shields.io/badge/node->=%208.2.1-blue.svg)](https://nodejs.org/dist/latest-v8.x/docs/api/) [![NPM version](https://img.shields.io/badge/npm->=%205.4.0-blue.svg)](https://docs.npmjs.com/) [![semantic-release](https://img.shi
GRAphQL Model builder is a utility to generate all necessary GraphQL query, mutation and subscription Types. It enforces a specific structure for your schema.
npm i gram
Basic usage would let you generate a model by just defining it and adding some attributes. It requires you to have some service that provides necessary CRUD-style getter and setter functions (findMany
, findOne
, update
, create
, remove
).
If you have a service called Animals
you could create a schema like this:
import { GraphQLString, GraphQLInt, GraphQLBoolean } from 'graphql'
import { createSchemaBuilder } from 'gram'
import { Animals } from './my-services/animals'
const builder = createSchemaBuilder()
const animal = builder.model('Animal', Animals)
// animal type like 'dog', 'cat'
// field is required
animal.attr('type', GraphQLString).isNonNull()
// animal name like 'Fluffy', 'Rex'
// field is not required
animal.attr('name', GraphQLString)
// is it a tame animal
animal.attr('tame', GraphQLBoolean)
// age of the animal
animal.attr('age', GraphQLInt)
const schema = builder.build()
This will generate a graphql schema like:
type Animal implements Node {
id: ID
createdAt: String
updatedAt: String
deletedAt: String
type: String!
name: String
tame: Boolean
age: Int
}
input AnimalFilter { … }
input AnimalPage {
limit: Int
offset: Int
}
type Animals implements List {
page: Page
nodes: [Animal!]!
}
enum AnimalSortOrder { … }
input AnimalWhere { … }
input CreateAnimalData { … }
interface List {
page: Page
nodes: [Node!]!
}
type Mutation {
createAnimal(data: CreateAnimalData!): Animal
updateAnimal(data: UpdateAnimalData!, where: AnimalWhere!): [Animal!]!
deleteAnimals(where: AnimalWhere!): [Animal!]!
}
interface Node {
id: ID
createdAt: String
updatedAt: String
deletedAt: String
}
type Page {
page: Int
limit: Int
offset: Int
}
type Query {
getAnimal(where: AnimalWhere!, order: AnimalSortOrder): Animal
getAnimals(order: AnimalSortOrder, page: AnimalPage, where: AnimalWhere!): Animals
}
type Subscription {
onCreateAnimal: Animal!
onUpdateAnimal: [Animal!]!
onDeleteAnimals: [Animal!]!
}
input UpdateAnimalData { … }
As you can see, some types and interfaces were added.
Gram is a little opinionated about Node
, Page
and List
.
It will generate the Node
and List
interfaces and apply them to you models by itself.
Your models will have to implement the Node
interface and the return value of the findMany
method will have to return a Page
type as the getAnimals
query returns Animals
which is of interface List
.
Gram will automatically assume all implemented methods on the service will work.
If you, for example, do not have a findMany method, Gram will remove the getAnimals
method and just generate the rest.
If you want to generate more than one schema from your models, there will be a feature implemented in the near future to enable and disable parts depending on the context given in the build method.
To add a resolver to the model we can use the .resolve(() => Resolver)
method on the model.
In this example the database does not have an age
column, and we need to calculate the age of the animal in the resolver.
const animal = builder.model('Animal', Animals)
// animal type like 'dog', 'cat'
// field is required
animal.attr('type', GraphQLString).isNonNull()
// animal name like 'Fluffy', 'Rex'
// field is not required
animal.attr('name', GraphQLString)
// is it a tame animal
animal.attr('tame', GraphQLBoolean)
// age of the animal
animal.attr('age', GraphQLInt)
animal.resolve(() => ({
// calculate the age of the animal
age: animal => Math.floor((Date.now() - animal.birthdate) / 1000 / 60 / 60 / 24 / 365)
}))
Of course our Animal
model is just an interface to help us build Cat
and Dog
models.
We will convert our Animal into an interface and generate a Cat
model that implements the interface.
There will be no use for that type
attribute any more, we will just skip it.
const builder = createSchemaBuilder()
const animal = builder.interface('Animal')
// animal name like 'Fluffy', 'Rex'
// field is not required
animal.attr('name', GraphQLString)
// is it a tame animal
animal.attr('tame', GraphQLBoolean)
// age of the animal
animal.attr('age', GraphQLInt)
const cat = builder.model('Cat', Animals)
cat.interface('Animal')
interface Animal {
name: String
tame: Boolean
}
type Cat implements Node & Animal {
id: ID
createdAt: Date
updatedAt: Date
deletedAt: Date
name: String
tame: Boolean
}
type Query {
getCat(where: CatWhere!, order: CatSortOrder): Cat
getCats(order: CatSortOrder, page: CatPage, where: CatWhere!): Cats
}
As you can see it now added the attributes to the Cat
model and we can now easily add more animal-type models to our system.
We moved the service to the Cat
model, which is not quite right.
It would be best to have a Cat
specific service, which will use the Animal
service in turn, by adding some filters.
But we will want to fetch any Animals
as well.
interface Animal {
type: AnimalTypes
name: string
tame: boolean
age: number
}
interface Cat extends Animal {
type: AnimalTypes.Cat,
}
interface Dog extends Animal {
type: AnimalTypes.Dog,
}
const Animals: Service<Animal> = {
findOne: async ({ order, where }) => Magically.findData(where, order),
}
const Cats: Service<Cat> = {
findOne: async ({ order, where }) => Animals.findOne({
order, where: { ...where, type: AnimalTypes.Cat },
}) as Promise<Cat>,
}
const Dogs: Service<Dog> = {
findOne: async ({ order, where }) => Animals.findOne({
order, where: { ...where, type: AnimalTypes.Dog },
}) as Promise<Dog>,
}
// after defining all interfaces we setup the schema
const builder = createSchemaBuilder()
const animal = builder.interface('Animal', Animals)
animal.attr('name', GraphQLString)
animal.attr('tame', GraphQLBoolean)
animal.attr('age', GraphQLInt)
const cat = builder.model('Cat', Cats)
cat.interface('Animal')
const dog = builder.model('Dog', Dogs)
dog.interface('Animal')
interface Animal {
name: String
tame: Boolean
age: Int
}
type Cat implements Node & Animal {
id: ID
createdAt: Date
updatedAt: Date
deletedAt: Date
name: String
tame: Boolean
age: Int
}
type Dog implements Node & Animal {
id: ID
createdAt: Date
updatedAt: Date
deletedAt: Date
name: String
tame: Boolean
age: Int
}
type Query {
getAnimal(where: AnimalWhere!, order: AnimalSortOrder): Animal
getCat(where: CatWhere!, order: CatSortOrder): Cat
getDog(where: DogWhere!, order: DogSortOrder): Dog
}
Now we can find any animal with a getAnimal(where: { name: "Fluffy" }) { ... on Dog { … }}
or find our Dog directly getDog(where: { name: "Fluffy" }) { … }
.
For use as DateTime
type inside this library @saeris/graphql-scalars
is used.
It is applied in the pagination system and allows more types to be setup, see the documentation for more information.
Sadly this library has no typing.
To install another type, simply attach it to the schemabuilder
.
const EatingType = new GraphQLScalarType({
name: 'EatingType',
description: 'What is this animal eating',
serialize: val => val,
})
const builder = createSchemaBuilder()
builder.setScalar('EatingType', EatingType)
const animal = builder.model('Animal', Animals)
const DateTime = builder.getScalar('DateTime')
// animal name like 'Fluffy', 'Rex'
// field is not required
animal.attr('name', GraphQLString)
// is it a tame animal
animal.attr('tame', GraphQLBoolean)
// age of the animal
animal.attr('dateOfBirth', DateTime)
// feeding type of the animal
animal.attr('feed', EatingType)
"""What is this animal eating"""
scalar EatingType
type Animal implements Node {
name: String
tame: Boolean
dateOfBirth: DateTime
feed: EatingType
id: ID
createdAt: DateTime
updatedAt: DateTime
deletedAt: DateTime
}
There is no filter strategy setup for the new scalar type yet. To add this we will to setup this.
const checkFn = isSpecificScalarType('EatingType')
const filterFn = filters.joinFilters([
filters.equals, // adds equal & not-equal filter
filters.record, // adds in && not-in filters
])
builder.addFilter(checkFn, filterFn)
input AnimalFilter {
{…}
feed: EatingType
feed_not: EatingType
feed_in: [EatingType!]
feed_not_in: [EatingType!]
{…}
}
With gram
you could also just build up a graphQL schema by hand, it provides all necessary method to do so.
const builder = createSchemaBuilder()
builder.addQuery('random', GraphQLFloat, () => Math.random)
type Query {
random: Float
}
Since version 2.1.2
it is now possible to set attribute types as strings, and not as GraphQLType objects.
const builder = createSchemaBuilder()
const animal = builder.model('Animal', AnimalService)
// animal name like 'Fluffy', 'Rex'
// field is required
animal.attr('name', 'String!')
// parents
animal.attr('mother', 'Animal')
animal.attr('father', 'Animal')
// children
animal.attr('children', '[Animal!]!')
type Animal implements Node {
name: String!
mother: Animal
father: Animal
children: [Animal!]!
id: ID
createdAt: DateTime
updatedAt: DateTime
deletedAt: DateTime
}
The schema builder will allow you to create different schemas from one definition. When accessing a graphql endpoint we always need to keep in mind who and with what rights the access is done.
type SchemaTypes = 'admin' | 'user'
const builder = createSchemaBuilder<SchemaTypes>()
const user = builder.model('User')
user.attr('email', GraphQLString)
builder.addQuery('context', GraphQLString, ({ context }) => () => context)
builder.addQuery(
'me',
user,
({ context: schemaContext }) => (root, args, context?: GQLContext) => {
if (!context) throw new Error('Need an authToken-context')
if (schemaContext === 'user' && !context.authToken)
throw new Error('Need an user:authToken')
if (!context.authId) throw new Error('Need an authID')
return {
id: context.authId,
email: schemaContext === 'admin' ? 'admin' : context.authToken,
}
},
)
const adminSchema = builder.build('admin')
const userSchema = builder.build('user')
const query = `{ context me { email }}`
const adminResult = await graphql({
schema: adminSchema,
source: query,
contextValue: {
authId: 'AdminID',
},
})
const userResult = await graphql({
schema: userSchema,
source: query,
contextValue: {
authId: 'AuthenticationID',
authToken: 'My@Token.com',
},
})
This will generate 2 different graphql schema.
The user-schema will be used for requests against the graphql system when the request is authenticated and identified to be a normal user.
The admin-schema will then be used for requests from the system administrators.
The build can also be generated as typeDefs
and resolvers
pair.
If you want to help with this project, just leave a bug report or pull request. I'll try to come back to you as soon as possible
MIT
FAQs
[![Node.js version](https://img.shields.io/badge/node->=%208.2.1-blue.svg)](https://nodejs.org/dist/latest-v8.x/docs/api/) [![NPM version](https://img.shields.io/badge/npm->=%205.4.0-blue.svg)](https://docs.npmjs.com/) [![semantic-release](https://img.shi
The npm package gram receives a total of 4 weekly downloads. As such, gram popularity was classified as not popular.
We found that gram demonstrated a not healthy version release cadence and project activity because the last version was released a year ago. It has 1 open source maintainer collaborating on the project.
Did you know?
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.
Security News
Socket's package search now displays weekly downloads for npm packages, helping developers quickly assess popularity and make more informed decisions.
Security News
A Stanford study reveals 9.5% of engineers contribute almost nothing, costing tech $90B annually, with remote work fueling the rise of "ghost engineers."
Research
Security News
Socket’s threat research team has detected six malicious npm packages typosquatting popular libraries to insert SSH backdoors.