graphql/type
The graphql/type
module is responsible for defining GraphQL types and schema. You can import either from the graphql/type
module, or from the root graphql
module. For example:
import { GraphQLSchema } from 'graphql'; // ES6
var { GraphQLSchema } = require('graphql'); // CommonJS
Overview
Schema
Definitions
class GraphQLScalarType
A scalar type within GraphQL.class GraphQLObjectType
An object type within GraphQL that contains fields.class GraphQLInterfaceType
An interface type within GraphQL that defines fields implementations will contain.class GraphQLUnionType
A union type within GraphQL that defines a list of implementations.class GraphQLEnumType
An enum type within GraphQL that defines a list of valid values.class GraphQLInputObjectType
An input object type within GraphQL that represents structured inputs.class GraphQLList
A type wrapper around other types that represents a list of those types.class GraphQLNonNull
A type wrapper around other types that represents a non-null version of those types.
Predicates
function isInputType
Returns if a type can be used as input types for arguments and directives.function isOutputType
Returns if a type can be used as output types as the result of fields.function isLeafType
Returns if a type can be a leaf value in a response.function isCompositeType
Returns if a type can be the parent context of a selection set.function isAbstractType
Returns if a type is a combination of object types.
Un-modifiers
function getNullableType
Strips any non-null wrappers from a type.function getNamedType
Strips any non-null or list wrappers from a type.
Scalars
var GraphQLInt
A scalar type representing integers.var GraphQLFloat
A scalar type representing floats.var GraphQLString
A scalar type representing strings.var GraphQLBoolean
A scalar type representing booleans.var GraphQLID
A scalar type representing IDs.
Schema
GraphQLSchema
class GraphQLSchema {
constructor(config: GraphQLSchemaConfig);
}
type GraphQLSchemaConfig = {
query: GraphQLObjectType;
mutation?: GraphQLObjectType;
};
A Schema is created by supplying the root types of each type of operation, query and mutation (optional). A schema definition is then supplied to the validator and executor.
Example
var MyAppSchema = new GraphQLSchema({
query: MyAppQueryRootType,
mutation: MyAppMutationRootType,
});
Definitions
GraphQLScalarType
class GraphQLScalarType<InternalType> {
constructor(config: GraphQLScalarTypeConfig<InternalType>);
}
type GraphQLScalarTypeConfig<InternalType> = {
name: string;
description?: string;
serialize: (value: mixed) => InternalType;
parseValue?: (value: mixed) => InternalType;
parseLiteral?: (valueAST: Value) => InternalType;
};
The leaf values of any request and input values to arguments are Scalars (or Enums) and are defined with a name and a series of serialization functions used to ensure validity.
Example
var OddType = new GraphQLScalarType({
name: 'Odd',
serialize: oddValue,
parseValue: oddValue,
parseLiteral(ast) {
if (ast.kind === Kind.INT) {
return oddValue(parseInt(ast.value, 10));
}
return null;
},
});
function oddValue(value) {
return value % 2 === 1 ? value : null;
}
GraphQLObjectType
class GraphQLObjectType {
constructor(config: GraphQLObjectTypeConfig);
}
type GraphQLObjectTypeConfig = {
name: string;
interfaces?: GraphQLInterfacesThunk | GraphQLInterfaceType[];
fields: GraphQLFieldConfigMapThunk | GraphQLFieldConfigMap;
isTypeOf?: (value: any, info?: GraphQLResolveInfo) => boolean;
description?: string;
};
type GraphQLInterfacesThunk = () => Array<GraphQLInterfaceType>;
type GraphQLFieldConfigMapThunk = () => GraphQLFieldConfigMap;
// See below about resolver functions.
type GraphQLFieldResolveFn = (
source?: any,
args?: { [argName: string]: any },
context?: any,
info?: GraphQLResolveInfo,
) => any;
type GraphQLResolveInfo = {
fieldName: string;
fieldNodes: Array<Field>;
returnType: GraphQLOutputType;
parentType: GraphQLCompositeType;
schema: GraphQLSchema;
fragments: { [fragmentName: string]: FragmentDefinition };
rootValue: any;
operation: OperationDefinition;
variableValues: { [variableName: string]: any };
};
type GraphQLFieldConfig = {
type: GraphQLOutputType;
args?: GraphQLFieldConfigArgumentMap;
resolve?: GraphQLFieldResolveFn;
deprecationReason?: string;
description?: string;
};
type GraphQLFieldConfigArgumentMap = {
[argName: string]: GraphQLArgumentConfig;
};
type GraphQLArgumentConfig = {
type: GraphQLInputType;
defaultValue?: any;
description?: string;
};
type GraphQLFieldConfigMap = {
[fieldName: string]: GraphQLFieldConfig;
};
Almost all of the GraphQL types you define will be object types. Object types have a name, but most importantly describe their fields.
When two types need to refer to each other, or a type needs to refer to itself in a field, you can use a function expression (aka a closure or a thunk) to supply the fields lazily.
Note that resolver functions are provided the source
object as the first parameter.
However, if a resolver function is not provided, then the default resolver is
used, which looks for a method on source
of the same name as the field. If found,
the method is called with (args, context, info)
. Since it is a method on source
,
that value can always be referenced with this
.
Examples
var AddressType = new GraphQLObjectType({
name: 'Address',
fields: {
street: { type: GraphQLString },
number: { type: GraphQLInt },
formatted: {
type: GraphQLString,
resolve(obj) {
return obj.number + ' ' + obj.street;
},
},
},
});
var PersonType = new GraphQLObjectType({
name: 'Person',
fields: () => ({
name: { type: GraphQLString },
bestFriend: { type: PersonType },
}),
});
GraphQLInterfaceType
class GraphQLInterfaceType {
constructor(config: GraphQLInterfaceTypeConfig);
}
type GraphQLInterfaceTypeConfig = {
name: string;
fields: GraphQLFieldConfigMapThunk | GraphQLFieldConfigMap;
resolveType?: (value: any, info?: GraphQLResolveInfo) => GraphQLObjectType;
description?: string;
};
When a field can return one of a heterogeneous set of types, a Interface type is used to describe what types are possible, what fields are in common across all types, as well as a function to determine which type is actually used when the field is resolved.
Example
var EntityType = new GraphQLInterfaceType({
name: 'Entity',
fields: {
name: { type: GraphQLString },
},
});
GraphQLUnionType
class GraphQLUnionType {
constructor(config: GraphQLUnionTypeConfig);
}
type GraphQLUnionTypeConfig = {
name: string;
types: GraphQLObjectsThunk | GraphQLObjectType[];
resolveType?: (value: any, info?: GraphQLResolveInfo) => GraphQLObjectType;
description?: string;
};
type GraphQLObjectsThunk = () => GraphQLObjectType[];
When a field can return one of a heterogeneous set of types, a Union type is used to describe what types are possible as well as providing a function to determine which type is actually used when the field is resolved.
Example
var PetType = new GraphQLUnionType({
name: 'Pet',
types: [DogType, CatType],
resolveType(value) {
if (value instanceof Dog) {
return DogType;
}
if (value instanceof Cat) {
return CatType;
}
},
});
GraphQLEnumType
class GraphQLEnumType {
constructor(config: GraphQLEnumTypeConfig);
}
type GraphQLEnumTypeConfig = {
name: string;
values: GraphQLEnumValueConfigMap;
description?: string;
};
type GraphQLEnumValueConfigMap = {
[valueName: string]: GraphQLEnumValueConfig;
};
type GraphQLEnumValueConfig = {
value?: any;
deprecationReason?: string;
description?: string;
};
type GraphQLEnumValueDefinition = {
name: string;
value?: any;
deprecationReason?: string;
description?: string;
};
Some leaf values of requests and input values are Enums. GraphQL serializes Enum values as strings, however internally Enums can be represented by any kind of type, often integers.
Note: If a value is not provided in a definition, the name of the enum value will be used as its internal value.
Example
var RGBType = new GraphQLEnumType({
name: 'RGB',
values: {
RED: { value: 0 },
GREEN: { value: 1 },
BLUE: { value: 2 },
},
});
GraphQLInputObjectType
class GraphQLInputObjectType {
constructor(config: GraphQLInputObjectConfig);
}
type GraphQLInputObjectConfig = {
name: string;
fields:
| GraphQLInputObjectConfigFieldMapThunk
| GraphQLInputObjectConfigFieldMap;
description?: string;
};
type GraphQLInputObjectConfigFieldMapThunk =
() => GraphQLInputObjectConfigFieldMap;
type GraphQLInputObjectFieldConfig = {
type: GraphQLInputType;
defaultValue?: any;
description?: string;
};
type GraphQLInputObjectConfigFieldMap = {
[fieldName: string]: GraphQLInputObjectFieldConfig;
};
type GraphQLInputObjectField = {
name: string;
type: GraphQLInputType;
defaultValue?: any;
description?: string;
};
type GraphQLInputObjectFieldMap = {
[fieldName: string]: GraphQLInputObjectField;
};
An input object defines a structured collection of fields which may be supplied to a field argument.
Using NonNull
will ensure that a value must be provided by the query
Example
var GeoPoint = new GraphQLInputObjectType({
name: 'GeoPoint',
fields: {
lat: { type: new GraphQLNonNull(GraphQLFloat) },
lon: { type: new GraphQLNonNull(GraphQLFloat) },
alt: { type: GraphQLFloat, defaultValue: 0 },
},
});
GraphQLList
class GraphQLList {
constructor(type: GraphQLType);
}
A list is a kind of type marker, a wrapping type which points to another type. Lists are often created within the context of defining the fields of an object type.
Example
var PersonType = new GraphQLObjectType({
name: 'Person',
fields: () => ({
parents: { type: new GraphQLList(PersonType) },
children: { type: new GraphQLList(PersonType) },
}),
});
GraphQLNonNull
class GraphQLNonNull {
constructor(type: GraphQLType);
}
A non-null is a kind of type marker, a wrapping type which points to another type. Non-null types enforce that their values are never null and can ensure an error is raised if this ever occurs during a request. It is useful for fields which you can make a strong guarantee on non-nullability, for example usually the id field of a database row will never be null.
Example
var RowType = new GraphQLObjectType({
name: 'Row',
fields: () => ({
id: { type: new GraphQLNonNull(String) },
}),
});
Predicates
isInputType
function isInputType(type: GraphQLType): boolean
These types may be used as input types for arguments and directives.
isOutputType
function isOutputType(type: GraphQLType): boolean;
These types may be used as output types as the result of fields
isLeafType
function isLeafType(type: GraphQLType): boolean;
These types may describe types which may be leaf values
isCompositeType
function isCompositeType(type: GraphQLType): boolean;
These types may describe the parent context of a selection set
isAbstractType
function isAbstractType(type: GraphQLType): boolean;
These types may describe a combination of object types
Un-modifiers
getNullableType
function getNullableType(type: GraphQLType): GraphQLNullableType;
If a given type is non-nullable, this strips the non-nullability and returns the underlying type.
getNamedType
function getNamedType(type: GraphQLType): GraphQLNamedType;
If a given type is non-nullable or a list, this repeated strips the non-nullability and list wrappers and returns the underlying type.
Scalars
GraphQLInt
let GraphQLInt: GraphQLScalarType;
A GraphQLScalarType
that represents an int.
GraphQLFloat
let GraphQLFloat: GraphQLScalarType;
A GraphQLScalarType
that represents a float.
GraphQLString
let GraphQLString: GraphQLScalarType;
A GraphQLScalarType
that represents a string.
GraphQLBoolean
let GraphQLBoolean: GraphQLScalarType;
A GraphQLScalarType
that represents a boolean.
GraphQLID
let GraphQLID: GraphQLScalarType;
A GraphQLScalarType
that represents an ID.