graphql-typescript-definitions
Generate TypeScript definition files from .graphql documents.
Installation
$ yarn add graphql-typescript-definitions
Usage
This package will generate matching .d.ts
files for each .graphql
file you specify. It will generate types in the following format:
-
A default export for the type that will be generated by a GraphQL loader (GraphQL’s DocumentNode
type, but augmented as graphql-typed
’s DocumentNode
which includes additional type details about the operation).
-
An interface for each query, mutation, and fragment, named <OpertionName><Query | Mutation | Fragment>Data
. For example, query Home {}
becomes export interface HomeQueryData {}
.
-
A namespace for each operation that includes any nested types. Nested types are named in pascal case using their keypath from the root of the operation. For example, if we imagine the following GraphQL schema (using the GraphQL IDL):
type Person {
name: String!
relatives: [Person!]!
}
type Query {
person: Person
}
and the following query:
query Someone {
person {
name
relatives {
name
}
}
}
The following exports would be generated:
export interface SomeoneQueryData {
person?: SomeoneQueryData.Person | null;
}
export namespace SomeoneQueryData {
export interface Person {
name: string;
relatives: SomeoneQueryData.PersonRelatives[];
}
export interface PersonRelatives {
name: string;
}
}
This allows you to use the full query’s type, as well as any of the subtypes that make up that query type. This is particularly useful for list or nullable types, where you can directly the access the underlying type without any additional help from TypeScript:
import someoneQueryDocument, {SomeoneQueryData} from './Someone.graphql';
let data: SomeoneQueryData;
let person: SomeoneQueryData.Person;
Operation
On startup this tool performs the following actions:
- Loads all schemas
- Extracts all enums, input objects, and custom scalars as schema types
- Writes the schema types to
types.ts
(or ${projectName}-types.ts
for named projects)
- Written in directory provided by
--schema-types-path
argument - Override
--schema-types-path
per project with the schemaTypesPath
extension
Configuration
This tool reads schema information from a .graphqlconfig
file in the project root.
Examples
A project configuration with a schemaTypesPath
override
{
"schemaPath": "build/schema.json",
"includes": ["app/**/*.graphql"],
"extensions": {
"schemaTypesPath": "app/bar/types/graphql"
}
}
Type Generation
Nullability
As demonstrated in the root person
field in the example above, nullable fields are represented as optional types, in a union with null
. Nullable items in list fields (i.e., [Person]!
) are represented as a union type with null
.
Interfaces and Unions
Interface an union fields are represented as union types in cases where there are spreads that could result in different fields on different concrete types. The type names for these cases are named the same as the default naming (pascal case version of the keypath for the field), but with the type condition appended to the end. All cases not covered by fragments are extracted into a type with a postpended Other
name.
interface Named {
name: String!
}
type Person implements Named {
name: String!
occupation: String
}
type Dog implements Named {
name: String!
legs: Int!
}
type Cat implements Named {
name: String!
livesLeft: Int!
}
type Horse implements Named {
name: String!
topSpeed: Float!
}
type Query {
named: Named
}
query SomeNamed {
named {
name
... on Person {
occupation
}
... on Dog {
legs
}
}
}
export interface SomeNamedData {
named?:
| SomeNamedData.NamedPerson
| SomeNamedData.NamedDog
| SomeNamedData.NamedOther
| null;
}
export namespace SomeNamedData {
export interface NamedPerson {
__typename: 'Person';
name: string;
occupation?: string | null;
}
export interface NamedDog {
__typename: 'Dog';
name: string;
legs: number;
}
export interface NamedOther {
__typename: 'Cat' | 'Horse';
name: string;
}
}
Note that the above example assumes that you specify the --add-typename
argument. These types are only useful when a typename is included either explicitly or with this argument, as otherwise there is no simple way for TypeScript to disambiguate the union type.
Schema Types
Input types (enums, input objects, and custom scalars) are generated once, in a central location, and imported within each typing file. You can use these definitions to reference the schema types in other application code as well; in particular, GraphQL enums are turned into corresponding TypeScript enum
s. The schema types directory is specified using the --schema-types-path
argument (detailed below), and the format for the generated enums can be specified using the --enum-format
option.
CLI
graphql-typescript-definitions --schema-types-path app/types
As noted above, the configuration of your schema and GraphQL documents is done via a .graphqlconfig
file, as this allows configuration to shared between tools. The CLI does support a few additional options, though:
--schema-types-path
: specifies a directory to write schema types (REQUIRED)--watch
: watches the include globbing patterns for changes and re-processes files (default = false
)--cwd
: run tool for .graphqlconfig
located in this directory (default = process.cwd()
)--add-typename
: adds a __typename
field to every object type (default = true
)--export-format
: species the shape of values exported from .graphql
files (default = document
)
- Options:
document
(exports a graphql-typed
DocumentNode
), simple
(exports a graphql-typed
SimpleDocument
)
--enum-format
: specifies output format for enum types (default = undefined
)
- Options:
camel-case
, pascal-case
, snake-case
, screaming-snake-case
undefined
results in using the unchanged name from the schema (verbatim)
--custom-scalars
: specifies custom types to use in place of scalar types in your GraphQL schema. See below for details.
Examples
graphql-typescript-definitions --schema-types-path app/graphql/types
graphql-typescript-definitions --schema-types-path app/graphql/types --watch
graphql-typescript-definitions --cwd src --schema-types-path app/graphql/types
--custom-scalars
By default, all custom scalars are exported as an alias for string
. You can export a different type for these scalars by passing in a --custom-scalars
option. This option is a JSON-serialized object that specifies what custom type to import from a package and re-export as the type for that scalar. For example, assuming the following schema:
scalar HtmlString
You may want a custom TypeScript type for any field of this GraphQL type (for example, to restrict functions to use only this type, and not any arbitrary string). Assuming you have an installed npm package by the name of my-custom-type-package
, and this package exports a named SafeString
type, you could pass the following --custom-scalars
option:
yarn run graphql-typescript-definitions --schema-path 'build/schema.json' --schema-types-path 'src/schema' --custom-scalars '{"HtmlString": {"name": "SafeString", package: "my-custom-type-package"}}'
With this configuration, your custom scalar would be exported roughly as follows:
import {SafeString} from 'my-custom-type-package';
export type HtmlString = SafeString;
You can also use built-in types by simply leaving off the package
property:
yarn run graphql-typescript-definitions --schema-path 'build/schema.json' --schema-types-path 'src/schema' --custom-scalars '{"Seconds": {"name": "number"}}'
This will produce a simple type alias:
export type Seconds = number;
Node
const {Builder} = require('graphql-typescript-definitions');
const builder = new Builder({
schemaTypesPath: 'app/graphql/types',
});
builder.on('build', (build) => {
console.log(build);
});
builder.on('error', (error) => {
console.error(error);
});
builder.run();
As with the CLI, you can pass options to customize the build and behavior:
watch
enumFormat
(use the exported EnumFormat
enum)graphQLFiles
schemaPath
schemaTypesPath
customScalars
config
(custom GraphQLConfig
instance)
Customizing filesystem interactions
In projects with thousands of GraphQL documents, Builder
may take a few seconds to reach its ready state. Additionally, very large projects with deep file trees may exceed Node's default memory limits (especially in non-MacOS environments). To allow project/environment-specific customization, builders accept a GraphQLFilesystem
object.
const {
AbstractGraphQLFilesystem,
Builder,
} = require('graphql-typescript-definitions');
class CustomFilesystem extends AbstractGraphQLFilesystem {
watch(config) {
}
getGraphQLProjectIncludedFilePaths(projectConfig) {
}
dispose() {
}
}
const builder = new Builder({
graphQLFilesystem: new CustomFilesystem(),
});
builder.run({watch: true});