Apollo GraphQL code generator
This is a tool to generate API code or type annotations based on a GraphQL schema and query documents.
It currently generates Swift code, TypeScript annotations, Flow annotations, and Scala code, we hope to add support for other targets in the future.
See Apollo iOS for details on the mapping from GraphQL results to Swift types, as well as runtime support for executing queries and mutations. For Scala, see React Apollo Scala.js for details on how to use generated Scala code in a Scala.js app with Apollo Client.
Usage
If you want to experiment with the tool, you can install the apollo-codegen
command globally:
npm install -g apollo-codegen
introspect-schema
To download a GraphQL schema by sending an introspection query to a server:
apollo-codegen introspect-schema http://localhost:8080/graphql --output schema.json
You can use the header
option to add additional HTTP headers to the request. For example, to include an authentication token, use --header "Authorization: Bearer <token>"
.
You can use the insecure
option to ignore any SSL errors (for example if the server is running with self-signed certificate).
Note: The command for downloading an introspection query was named download-schema
but it was renamed to introspect-schema
in order to have a single command for introspecting local or remote schemas. The old name download-schema
is still available is an alias for backward compatibility.
To generate a GraphQL schema introspection JSON from a local GraphQL schema:
apollo-codegen introspect-schema schema.graphql --output schema.json
generate
This tool will generate Swift code by default from a set of query definitions in .graphql
files:
apollo-codegen generate **/*.graphql --schema schema.json --output API.swift
You can also generate type annotations for TypeScript, Flow, or Scala using the --target
option:
apollo-codegen generate **/*.graphql --schema schema.json --target typescript --output schema.ts
apollo-codegen generate **/*.graphql --schema schema.json --target flow --output schema.flow.js
apollo-codegen generate **/*.graphql --schema schema.json --target scala --output schema.scala
gql
template support
If the source file for generation is a javascript or typescript file, the codegen will try to extrapolate the queries inside the gql tag templates.
The tag name is configurable using the CLI --tag-name
option.
Typescript and Flow
When using apollo-codegen
with Typescript or Flow, make sure to add the __typename
introspection field to every selection set within your graphql operations.
If you're using a client like apollo-client
that does this automatically for your GraphQL operations, pass in the --addTypename
option to apollo-codegen
to make sure the generated Typescript and Flow types have the __typename
field as well. This is required to ensure proper type generation support for GraphQLUnionType
and GraphQLInterfaceType
fields.
Why is the __typename field required?
Using the type information from the GraphQL schema, we can infer the possible types for fields. However, in the case of a GraphQLUnionType
or GraphQLInterfaceType
, there are multiple types that are possible for that field. This is best modeled using a disjoint union with the __typename
as the discriminant.
For example, given a schema:
...
interface Character {
name: String!
}
type Human implements Character {
homePlanet: String
}
type Droid implements Character {
primaryFunction: String
}
...
Whenever a field of type Character
is encountered, it could be either a Human or Droid. Human and Droid objects
will have a different set of fields. Within your application code, when interacting with a Character
you'll want to make sure to handle both of these cases.
Given this query:
query Characters {
characters(episode: NEW_HOPE) {
name
... on Human {
homePlanet
}
... on Droid {
primaryFunction
}
}
}
Apollo Codegen will generate a union type for Character.
export type CharactersQuery = {
characters: Array<{
__typename: 'Human',
name: string,
homePlanet: ?string
} | {
__typename: 'Droid',
name: string,
primaryFunction: ?string
}>
}
This type can then be used as follows to ensure that all possible types are handled:
function CharacterFigures({ characters }: CharactersQuery) {
return characters.map(character => {
switch(character.__typename) {
case "Human":
return <HumanFigure homePlanet={character.homePlanet} name={character.name} />
case "Droid":
return <DroidFigure primaryFunction={character.primaryFunction} name={character.name} />
}
});
}
Contributing
Running tests locally:
npm install
npm test