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  • Language
    TypeScript
  • License
    MIT License
  • Created over 6 years ago
  • Updated over 2 years ago

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Repository Details

Create GraphQL schema with TypeScript classes.

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What is typegql?

demo

typegql is set of decorators allowing creating GraphQL APIs quickly and in type-safe way.

Examples:

Basic example

Example below is able to resolve such query

query {
  hello(name: "Bob") # will resolve to 'Hello, Bob!'
}
import { compileSchema, SchemaRoot, Query } from 'typegql';

@SchemaRoot()
class SuperSchema {
  @Query()
  hello(name: string): string {
    return `Hello, ${name}!`;
  }
}

const compiledSchema = compileSchema({ roots: [SuperSchema] });

compiledSchema is regular executable schema compatible with graphql-js library.

To use it with express, you'd have to simply:

import * as express from 'express';
import * as graphqlHTTP from 'express-graphql';

const app = express();

app.use(
  '/graphql',
  graphqlHTTP({
    schema: compiledSchema,
    graphiql: true,
  }),
);
app.listen(3000, () => console.log('Graphql API ready on http://localhost:3000/graphql'));

Adding nested types

For now, our query field returned scalar (string). Let's return something more complex. Schema will look like:

mutation {
  createProduct(name: "Chair", price: 99.99) {
    name
    price
    isExpensive
  }
}

Such query will have a bit more code and here it is:

import { Schema, Query, ObjectType, Field, Mutation, compileSchema } from 'typegql';

@ObjectType({ description: 'Simple product object type' })
class Product {
  @Field() name: string;

  @Field() price: number;

  @Field()
  isExpensive() {
    return this.price > 50;
  }
}

@Schema()
class SuperSchema {
  @Mutation()
  createProduct(name: string, price: number): Product {
    const product = new Product();
    product.name = name;
    product.price = price;
    return product;
  }
}

const compiledSchema = compileSchema(SuperSchema);

Forcing field type.

Until now, typegql was able to guess type of every field from typescript type definitions.

There are, however, some cases where we'd have to define them explicitly.

  • We want to strictly tell if field is nullable or not
  • We want to be explicit about if some number type is Float or Int (GraphQLFloat or GraphQLInt) etc
  • Function we use returns type of Promise<SomeType> while field itself is typed as SomeType
  • List (Array) type is used. (For now, typescript Reflect api is not able to guess type of single array item. This might change in the future)

Let's modify our Product so it has additional categories field that will return array of strings. For sake of readibility, I'll ommit all fields we've defined previously.

@ObjectType()
class Product {
  @Field({ type: [String] }) // note we can use any native type like GraphQLString!
  categories(): string[] {
    return ['Tables', 'Furniture'];
  }
}

We've added { type: [String] } as @Field options. Type can be anything that is resolvable to GraphQL type

  • Native JS scalars: String, Number, Boolean.
  • Any type that is already compiled to graphql eg. GraphQLFloat or any type from external graphql library etc
  • Every class decorated with @ObjectType
  • One element array of any of above for list types eg. [String] or [GraphQLFloat]

Writing Asynchronously

Every field function we write can be async and return Promise. Let's say, instead of hard-coding our categories, we want to fetch it from some external API:

@ObjectType()
class Product {
  @Field({ type: [String] }) // note we can use any native type like GraphQLString!
  async categories(): Promise<string[]> {
    const categories = await api.fetchCategories();
    return categories.map(cat => cat.name);
  }
}

Before 1.0.0

Before version 1.0.0 consider APIs of typegql to be subject to change. We encourage you to try this library out and provide us feedback so we can polish it to be as usable and efficent as possible.