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Write GraphQL queries with a gql tag in TypeScript -> have generated types

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ts-gql

Write GraphQL queries with a gql tag in TypeScript -> have generated types

Why?

There are lots of great tools(some of which ts-gql uses internally!) for generating TypeScript types from GraphQL queries though a lot of the solutions have at least one of two problems:

  • The writing of a query isn't connected to the type that it results in
  • You're forced to write queries in .graphql files rather than inline
    • This also often means that you can't use fragments or that there's a new import syntax to learn

How does ts-gql solve these problems?

When using ts-gql, you write GraphQL queries with a tagged template literal like normal.

import { gql } from "@ts-gql/tag";

let myQuery = gql`
  query MyQuery {
    hello
  }
`;

And then our ESLint plugin will auto-fix it to

import { gql } from "@ts-gql/tag";

let myQuery = gql`
  query MyQuery {
    hello
  }
` as import("../__generated__/ts-gql/MyQuery.ts").type;

You'll have the best experience if you have ESLint auto fix on save enabled in your editor.

Why do we need to add `as import("__generated__/ts-gql/MyQuery.ts").type`?

TypeScript doesn't currently type tagged template literals with literal string types so there is no way to get the correct type based on the call so we have to add as import("__generated__/ts-gql/MyQuery.ts").type though there are issues discussing it which would remove the need for this.

You can then use GraphQL Clients like Apollo Client, urql or any other GraphQL client that supports @graphql-typed-document-node/core and get types for the variables and data.

Getting Started

When using ts-gql, you'll need @ts-gql/tag, @ts-gql/eslint-plugin and @ts-gql/compiler.

npm install graphql @ts-gql/tag @ts-gql/eslint-plugin @ts-gql/compiler

If you're not already using ESLint and @typescript-eslint/parser, you'll need those too.

You'll need to add the ESLint plugin to your config and enable the @ts-gql/ts-gql rule. Your config might look something like this:

{
  "parser": "@typescript-eslint/parser",
  "plugins": ["@ts-gql"],
  "rules": {
    "@ts-gql/ts-gql": "error"
  }
}

You now need to tell ts-gql where your GraphQL SDL file or introspection query result is. To do this, add to your package.json. Replace schema.graphql with the path to your SDL or introspection query result.

{
  "ts-gql": {
    "schema": "schema.graphql"
  }
}

Add a script to your package.json and run it. You should run this in postinstall so that the types are generated when install happens.

{
  "scripts": {
    "postinstall": "ts-gql build",
    "ts-gql:build": "ts-gql build",
    "ts-gql:watch": "ts-gql watch"
  }
}

You can run npm run ts-gql:build to do a single build or npm run ts-gql:watch to start watching.

If you're using Next.js, you can use @ts-gql/next to automatically start ts-gql's watcher when you start Next.js's dev server.

Using Apollo

See docs/using-ts-gql-with-apollo.md for how to use ts-gql with Apollo.

FAQ

Why not let people interpolate fragments so you don't have to have unique fragment/operation names?

This was the original plan! It's been abandoned though for a couple reasons:

  • Build time performance
    • Requiring type checking before you can generate types makes things much slower
      • This is compounded by the fact that you not only have to do type checking but you have to do type checking n times where n is the maximum fragment depth. Because we want to encourage the use of fragments, a tool that gets significantly slower as you use more fragments would make it impractical to use fragments
  • Having to either not have Prettier work for documents with fragment interpolations(because Prettier will not format interpolations in GraphQL documents unless they are outside of the content of the document so you couldn't interpolate a fragment where it's used) or still have to name it and then you'd still have the potential for name conflicts(unless you added a syntax for renaming fragments at which point, I would say that that's way more complexity without a substantial gain)
  • Not allowing interpolation makes it very very clear what you can and can't do. Even if we allowed interpolations, they would be constrained which is a very difficult thing to explain.
  • Apollo already doesn't allow non-unique names anyway for their tooling anyway
  • TODO: there are more reasons

How do you pass types around?

@ts-gql/tag comes with an OperationData type to get the type of an operation(mutation or query) and FragmentData to get the type for a fragment.

import { gql, OperationData, FragmentData } from "@ts-gql/tag";

let myQuery = gql`
  query MyQuery {
    hello
  }
` as import("../__generated__/ts-gql/MyQuery.ts").type;

type MyQueryType = OperationData<typeof myQuery>;

let myFragment = gql`
  query MyFragment_something on SomeType {
    hello
  }
` as import("../__generated__/ts-gql/MyFragment_something.ts").type;

type MyFragmentType = FragmentData<typeof myFragment>;

This seems a lot like Relay, why not just use Relay?

You're right! There are a lot of similarities between Relay and ts-gql. There are some important differences though. Relay is an entire GraphQL client, it can do a lot of cool things because of that but that also means that if you want the things that the Relay compiler offers, you have to use Relay which may not appeal to everyone. If Relay does work well for you though, that's fine too, use it!

ts-gql isn't trying to be a GraphQL client, it's only trying to provide a way to type GraphQL queries so that clients can .

Non-Goals

  • Improve the experience of creating GraphQL APIs

Thanks