@exogen/graphql-tools
v2.6.0-0
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Useful tools to create and manipulate GraphQL schemas.
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GraphQL-tools: generate and mock GraphQL.js schemas
This package provides a few useful ways to create a GraphQL schema:
- Use the GraphQL schema language to generate a schema with full support for resolvers, interfaces, unions, and custom scalars. The schema produced is completely compatible with GraphQL.js.
- Mock your GraphQL API with fine-grained per-type mocking
- Automatically stitch multiple schemas together into one larger API
Documentation
Example
See and edit the live example on Launchpad.
When using graphql-tools
, you describe the schema as a GraphQL type language string:
const typeDefs = `
type Author {
id: ID! # the ! means that every author object _must_ have an id
firstName: String
lastName: String
posts: [Post] # the list of Posts by this author
}
type Post {
id: ID!
title: String
author: Author
votes: Int
}
# the schema allows the following query:
type Query {
posts: [Post]
}
# this schema allows the following mutation:
type Mutation {
upvotePost (
postId: ID!
): Post
}
# we need to tell the server which types represent the root query
# and root mutation types. We call them RootQuery and RootMutation by convention.
schema {
query: Query
mutation: Mutation
}
`;
export default typeDefs;
Then you define resolvers as a nested object that maps type and field names to resolver functions:
const resolvers = {
Query: {
posts() {
return posts;
},
},
Mutation: {
upvotePost(_, { postId }) {
const post = find(posts, { id: postId });
if (!post) {
throw new Error(`Couldn't find post with id ${postId}`);
}
post.votes += 1;
return post;
},
},
Author: {
posts(author) {
return filter(posts, { authorId: author.id });
},
},
Post: {
author(post) {
return find(authors, { id: post.authorId });
},
},
};
export default resolvers;
At the end, the schema and resolvers are combined using makeExecutableSchema
:
import { makeExecutableSchema } from 'graphql-tools';
const executableSchema = makeExecutableSchema({
typeDefs,
resolvers,
});
This example has the entire type definition in one string and all resolvers in one file, but you can combine types and resolvers from multiple files and objects, as documented in the modularizing the schema section of the docs.
Contributions
Contributions, issues and feature requests are very welcome. If you are using this package and fixed a bug for yourself, please consider submitting a PR!