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definition.go
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package graphql
import (
"context"
"fmt"
"reflect"
"regexp"
"github.com/graphql-go/graphql/language/ast"
)
// Type interface for all of the possible kinds of GraphQL types
type Type interface {
Name() string
Description() string
String() string
Error() error
}
var _ Type = (*Scalar)(nil)
var _ Type = (*Object)(nil)
var _ Type = (*Interface)(nil)
var _ Type = (*Union)(nil)
var _ Type = (*Enum)(nil)
var _ Type = (*InputObject)(nil)
var _ Type = (*List)(nil)
var _ Type = (*NonNull)(nil)
var _ Type = (*Argument)(nil)
// Input interface for types that may be used as input types for arguments and directives.
type Input interface {
Name() string
Description() string
String() string
Error() error
}
var _ Input = (*Scalar)(nil)
var _ Input = (*Enum)(nil)
var _ Input = (*InputObject)(nil)
var _ Input = (*List)(nil)
var _ Input = (*NonNull)(nil)
// IsInputType determines if given type is a GraphQLInputType
func IsInputType(ttype Type) bool {
switch GetNamed(ttype).(type) {
case *Scalar, *Enum, *InputObject:
return true
default:
return false
}
}
// IsOutputType determines if given type is a GraphQLOutputType
func IsOutputType(ttype Type) bool {
switch GetNamed(ttype).(type) {
case *Scalar, *Object, *Interface, *Union, *Enum:
return true
default:
return false
}
}
// Leaf interface for types that may be leaf values
type Leaf interface {
Name() string
Description() string
String() string
Error() error
Serialize(value interface{}) interface{}
}
var _ Leaf = (*Scalar)(nil)
var _ Leaf = (*Enum)(nil)
// IsLeafType determines if given type is a leaf value
func IsLeafType(ttype Type) bool {
switch GetNamed(ttype).(type) {
case *Scalar, *Enum:
return true
default:
return false
}
}
// Output interface for types that may be used as output types as the result of fields.
type Output interface {
Name() string
Description() string
String() string
Error() error
}
var _ Output = (*Scalar)(nil)
var _ Output = (*Object)(nil)
var _ Output = (*Interface)(nil)
var _ Output = (*Union)(nil)
var _ Output = (*Enum)(nil)
var _ Output = (*List)(nil)
var _ Output = (*NonNull)(nil)
// Composite interface for types that may describe the parent context of a selection set.
type Composite interface {
Name() string
Description() string
String() string
Error() error
}
var _ Composite = (*Object)(nil)
var _ Composite = (*Interface)(nil)
var _ Composite = (*Union)(nil)
// IsCompositeType determines if given type is a GraphQLComposite type
func IsCompositeType(ttype interface{}) bool {
switch ttype.(type) {
case *Object, *Interface, *Union:
return true
default:
return false
}
}
// Abstract interface for types that may describe the parent context of a selection set.
type Abstract interface {
Name() string
}
var _ Abstract = (*Interface)(nil)
var _ Abstract = (*Union)(nil)
func IsAbstractType(ttype interface{}) bool {
switch ttype.(type) {
case *Interface, *Union:
return true
default:
return false
}
}
// Nullable interface for types that can accept null as a value.
type Nullable interface {
}
var _ Nullable = (*Scalar)(nil)
var _ Nullable = (*Object)(nil)
var _ Nullable = (*Interface)(nil)
var _ Nullable = (*Union)(nil)
var _ Nullable = (*Enum)(nil)
var _ Nullable = (*InputObject)(nil)
var _ Nullable = (*List)(nil)
// GetNullable returns the Nullable type of the given GraphQL type
func GetNullable(ttype Type) Nullable {
if ttype, ok := ttype.(*NonNull); ok {
return ttype.OfType
}
return ttype
}
// Named interface for types that do not include modifiers like List or NonNull.
type Named interface {
String() string
}
var _ Named = (*Scalar)(nil)
var _ Named = (*Object)(nil)
var _ Named = (*Interface)(nil)
var _ Named = (*Union)(nil)
var _ Named = (*Enum)(nil)
var _ Named = (*InputObject)(nil)
// GetNamed returns the Named type of the given GraphQL type
func GetNamed(ttype Type) Named {
unmodifiedType := ttype
for {
switch typ := unmodifiedType.(type) {
case *List:
unmodifiedType = typ.OfType
case *NonNull:
unmodifiedType = typ.OfType
default:
return unmodifiedType
}
}
}
// Scalar Type Definition
//
// 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 functions
// used to parse input from ast or variables and to ensure validity.
//
// Example:
//
// var OddType = new Scalar({
// name: 'Odd',
// serialize(value) {
// return value % 2 === 1 ? value : null;
// }
// });
//
type Scalar struct {
PrivateName string `json:"name"`
PrivateDescription string `json:"description"`
scalarConfig ScalarConfig
err error
}
// SerializeFn is a function type for serializing a GraphQLScalar type value
type SerializeFn func(value interface{}) interface{}
// ParseValueFn is a function type for parsing the value of a GraphQLScalar type
type ParseValueFn func(value interface{}) interface{}
// ParseLiteralFn is a function type for parsing the literal value of a GraphQLScalar type
type ParseLiteralFn func(valueAST ast.Value) interface{}
// ScalarConfig options for creating a new GraphQLScalar
type ScalarConfig struct {
Name string `json:"name"`
Description string `json:"description"`
Serialize SerializeFn
ParseValue ParseValueFn
ParseLiteral ParseLiteralFn
}
// NewScalar creates a new GraphQLScalar
func NewScalar(config ScalarConfig) *Scalar {
st := &Scalar{}
err := invariant(config.Name != "", "Type must be named.")
if err != nil {
st.err = err
return st
}
err = assertValidName(config.Name)
if err != nil {
st.err = err
return st
}
st.PrivateName = config.Name
st.PrivateDescription = config.Description
err = invariantf(
config.Serialize != nil,
`%v must provide "serialize" function. If this custom Scalar is `+
`also used as an input type, ensure "parseValue" and "parseLiteral" `+
`functions are also provided.`, st,
)
if err != nil {
st.err = err
return st
}
if config.ParseValue != nil || config.ParseLiteral != nil {
err = invariantf(
config.ParseValue != nil && config.ParseLiteral != nil,
`%v must provide both "parseValue" and "parseLiteral" functions.`, st,
)
if err != nil {
st.err = err
return st
}
}
st.scalarConfig = config
return st
}
func (st *Scalar) Serialize(value interface{}) interface{} {
if st.scalarConfig.Serialize == nil {
return value
}
return st.scalarConfig.Serialize(value)
}
func (st *Scalar) ParseValue(value interface{}) interface{} {
if st.scalarConfig.ParseValue == nil {
return value
}
return st.scalarConfig.ParseValue(value)
}
func (st *Scalar) ParseLiteral(valueAST ast.Value) interface{} {
if st.scalarConfig.ParseLiteral == nil {
return nil
}
return st.scalarConfig.ParseLiteral(valueAST)
}
func (st *Scalar) Name() string {
return st.PrivateName
}
func (st *Scalar) Description() string {
return st.PrivateDescription
}
func (st *Scalar) String() string {
return st.PrivateName
}
func (st *Scalar) Error() error {
return st.err
}
// Object Type Definition
//
// Almost all of the GraphQL types you define will be object Object types
// have a name, but most importantly describe their fields.
// Example:
//
// var AddressType = new Object({
// name: 'Address',
// fields: {
// street: { type: String },
// number: { type: Int },
// formatted: {
// type: String,
// resolve(obj) {
// return obj.number + ' ' + obj.street
// }
// }
// }
// });
//
// 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.
//
// Example:
//
// var PersonType = new Object({
// name: 'Person',
// fields: () => ({
// name: { type: String },
// bestFriend: { type: PersonType },
// })
// });
//
// /
type Object struct {
PrivateName string `json:"name"`
PrivateDescription string `json:"description"`
IsTypeOf IsTypeOfFn
typeConfig ObjectConfig
initialisedFields bool
fields FieldDefinitionMap
initialisedInterfaces bool
interfaces []*Interface
// Interim alternative to throwing an error during schema definition at run-time
err error
}
// IsTypeOfParams Params for IsTypeOfFn()
type IsTypeOfParams struct {
// Value that needs to be resolve.
// Use this to decide which GraphQLObject this value maps to.
Value interface{}
// Info is a collection of information about the current execution state.
Info ResolveInfo
// Context argument is a context value that is provided to every resolve function within an execution.
// It is commonly
// used to represent an authenticated user, or request-specific caches.
Context context.Context
}
type IsTypeOfFn func(p IsTypeOfParams) bool
type InterfacesThunk func() []*Interface
type ObjectConfig struct {
Name string `json:"name"`
Interfaces interface{} `json:"interfaces"`
Fields interface{} `json:"fields"`
IsTypeOf IsTypeOfFn `json:"isTypeOf"`
Description string `json:"description"`
}
type FieldsThunk func() Fields
func NewObject(config ObjectConfig) *Object {
objectType := &Object{}
err := invariant(config.Name != "", "Type must be named.")
if err != nil {
objectType.err = err
return objectType
}
err = assertValidName(config.Name)
if err != nil {
objectType.err = err
return objectType
}
objectType.PrivateName = config.Name
objectType.PrivateDescription = config.Description
objectType.IsTypeOf = config.IsTypeOf
objectType.typeConfig = config
return objectType
}
// ensureCache ensures that both fields and interfaces have been initialized properly,
// to prevent races.
func (gt *Object) ensureCache() {
gt.Fields()
gt.Interfaces()
}
func (gt *Object) AddFieldConfig(fieldName string, fieldConfig *Field) {
if fieldName == "" || fieldConfig == nil {
return
}
if fields, ok := gt.typeConfig.Fields.(Fields); ok {
fields[fieldName] = fieldConfig
gt.initialisedFields = false
}
}
func (gt *Object) Name() string {
return gt.PrivateName
}
func (gt *Object) Description() string {
return ""
}
func (gt *Object) String() string {
return gt.PrivateName
}
func (gt *Object) Fields() FieldDefinitionMap {
if gt.initialisedFields {
return gt.fields
}
var configureFields Fields
switch fields := gt.typeConfig.Fields.(type) {
case Fields:
configureFields = fields
case FieldsThunk:
configureFields = fields()
}
gt.fields, gt.err = defineFieldMap(gt, configureFields)
gt.initialisedFields = true
return gt.fields
}
func (gt *Object) Interfaces() []*Interface {
if gt.initialisedInterfaces {
return gt.interfaces
}
var configInterfaces []*Interface
switch iface := gt.typeConfig.Interfaces.(type) {
case InterfacesThunk:
configInterfaces = iface()
case []*Interface:
configInterfaces = iface
case nil:
default:
gt.err = fmt.Errorf("Unknown Object.Interfaces type: %T", gt.typeConfig.Interfaces)
gt.initialisedInterfaces = true
return nil
}
gt.interfaces, gt.err = defineInterfaces(gt, configInterfaces)
gt.initialisedInterfaces = true
return gt.interfaces
}
func (gt *Object) Error() error {
return gt.err
}
func defineInterfaces(ttype *Object, interfaces []*Interface) ([]*Interface, error) {
ifaces := []*Interface{}
if len(interfaces) == 0 {
return ifaces, nil
}
for _, iface := range interfaces {
err := invariantf(
iface != nil,
`%v may only implement Interface types, it cannot implement: %v.`, ttype, iface,
)
if err != nil {
return ifaces, err
}
if iface.ResolveType != nil {
err = invariantf(
iface.ResolveType != nil,
`Interface Type %v does not provide a "resolveType" function `+
`and implementing Type %v does not provide a "isTypeOf" `+
`function. There is no way to resolve this implementing type `+
`during execution.`, iface, ttype,
)
if err != nil {
return ifaces, err
}
}
ifaces = append(ifaces, iface)
}
return ifaces, nil
}
func defineFieldMap(ttype Named, fieldMap Fields) (FieldDefinitionMap, error) {
resultFieldMap := FieldDefinitionMap{}
err := invariantf(
len(fieldMap) > 0,
`%v fields must be an object with field names as keys or a function which return such an object.`, ttype,
)
if err != nil {
return resultFieldMap, err
}
for fieldName, field := range fieldMap {
if field == nil {
continue
}
err = invariantf(
field.Type != nil,
`%v.%v field type must be Output Type but got: %v.`, ttype, fieldName, field.Type,
)
if err != nil {
return resultFieldMap, err
}
if field.Type.Error() != nil {
return resultFieldMap, field.Type.Error()
}
if err = assertValidName(fieldName); err != nil {
return resultFieldMap, err
}
fieldDef := &FieldDefinition{
Name: fieldName,
Description: field.Description,
Type: field.Type,
Resolve: field.Resolve,
Subscribe: field.Subscribe,
DeprecationReason: field.DeprecationReason,
}
fieldDef.Args = []*Argument{}
for argName, arg := range field.Args {
if err = assertValidName(argName); err != nil {
return resultFieldMap, err
}
if err = invariantf(
arg != nil,
`%v.%v args must be an object with argument names as keys.`, ttype, fieldName,
); err != nil {
return resultFieldMap, err
}
if err = invariantf(
arg.Type != nil,
`%v.%v(%v:) argument type must be Input Type but got: %v.`, ttype, fieldName, argName, arg.Type,
); err != nil {
return resultFieldMap, err
}
fieldArg := &Argument{
PrivateName: argName,
PrivateDescription: arg.Description,
Type: arg.Type,
DefaultValue: arg.DefaultValue,
}
fieldDef.Args = append(fieldDef.Args, fieldArg)
}
resultFieldMap[fieldName] = fieldDef
}
return resultFieldMap, nil
}
// ResolveParams Params for FieldResolveFn()
type ResolveParams struct {
// Source is the source value
Source interface{}
// Args is a map of arguments for current GraphQL request
Args map[string]interface{}
// Info is a collection of information about the current execution state.
Info ResolveInfo
// Context argument is a context value that is provided to every resolve function within an execution.
// It is commonly
// used to represent an authenticated user, or request-specific caches.
Context context.Context
}
type FieldResolveFn func(p ResolveParams) (interface{}, error)
type ResolveInfo struct {
FieldName string
FieldASTs []*ast.Field
Path *ResponsePath
ReturnType Output
ParentType Composite
Schema Schema
Fragments map[string]ast.Definition
RootValue interface{}
Operation ast.Definition
VariableValues map[string]interface{}
}
type Fields map[string]*Field
type Field struct {
Name string `json:"name"` // used by graphlql-relay
Type Output `json:"type"`
Args FieldConfigArgument `json:"args"`
Resolve FieldResolveFn `json:"-"`
Subscribe FieldResolveFn `json:"-"`
DeprecationReason string `json:"deprecationReason"`
Description string `json:"description"`
}
type FieldConfigArgument map[string]*ArgumentConfig
type ArgumentConfig struct {
Type Input `json:"type"`
DefaultValue interface{} `json:"defaultValue"`
Description string `json:"description"`
}
type FieldDefinitionMap map[string]*FieldDefinition
type FieldDefinition struct {
Name string `json:"name"`
Description string `json:"description"`
Type Output `json:"type"`
Args []*Argument `json:"args"`
Resolve FieldResolveFn `json:"-"`
Subscribe FieldResolveFn `json:"-"`
DeprecationReason string `json:"deprecationReason"`
}
type FieldArgument struct {
Name string `json:"name"`
Type Type `json:"type"`
DefaultValue interface{} `json:"defaultValue"`
Description string `json:"description"`
}
type Argument struct {
PrivateName string `json:"name"`
Type Input `json:"type"`
DefaultValue interface{} `json:"defaultValue"`
PrivateDescription string `json:"description"`
}
func (st *Argument) Name() string {
return st.PrivateName
}
func (st *Argument) Description() string {
return st.PrivateDescription
}
func (st *Argument) String() string {
return st.PrivateName
}
func (st *Argument) Error() error {
return nil
}
// Interface Type Definition
//
// 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 Interface({
// name: 'Entity',
// fields: {
// name: { type: String }
// }
// });
//
//
type Interface struct {
PrivateName string `json:"name"`
PrivateDescription string `json:"description"`
ResolveType ResolveTypeFn
typeConfig InterfaceConfig
initialisedFields bool
fields FieldDefinitionMap
err error
}
type InterfaceConfig struct {
Name string `json:"name"`
Fields interface{} `json:"fields"`
ResolveType ResolveTypeFn
Description string `json:"description"`
}
// ResolveTypeParams Params for ResolveTypeFn()
type ResolveTypeParams struct {
// Value that needs to be resolve.
// Use this to decide which GraphQLObject this value maps to.
Value interface{}
// Info is a collection of information about the current execution state.
Info ResolveInfo
// Context argument is a context value that is provided to every resolve function within an execution.
// It is commonly
// used to represent an authenticated user, or request-specific caches.
Context context.Context
}
type ResolveTypeFn func(p ResolveTypeParams) *Object
func NewInterface(config InterfaceConfig) *Interface {
it := &Interface{}
if it.err = invariant(config.Name != "", "Type must be named."); it.err != nil {
return it
}
if it.err = assertValidName(config.Name); it.err != nil {
return it
}
it.PrivateName = config.Name
it.PrivateDescription = config.Description
it.ResolveType = config.ResolveType
it.typeConfig = config
return it
}
func (it *Interface) AddFieldConfig(fieldName string, fieldConfig *Field) {
if fieldName == "" || fieldConfig == nil {
return
}
if fields, ok := it.typeConfig.Fields.(Fields); ok {
fields[fieldName] = fieldConfig
it.initialisedFields = false
}
}
func (it *Interface) Name() string {
return it.PrivateName
}
func (it *Interface) Description() string {
return it.PrivateDescription
}
func (it *Interface) Fields() (fields FieldDefinitionMap) {
if it.initialisedFields {
return it.fields
}
var configureFields Fields
switch fields := it.typeConfig.Fields.(type) {
case Fields:
configureFields = fields
case FieldsThunk:
configureFields = fields()
}
it.fields, it.err = defineFieldMap(it, configureFields)
it.initialisedFields = true
return it.fields
}
func (it *Interface) String() string {
return it.PrivateName
}
func (it *Interface) Error() error {
return it.err
}
// Union Type Definition
//
// 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 Union({
// name: 'Pet',
// types: [ DogType, CatType ],
// resolveType(value) {
// if (value instanceof Dog) {
// return DogType;
// }
// if (value instanceof Cat) {
// return CatType;
// }
// }
// });
type Union struct {
PrivateName string `json:"name"`
PrivateDescription string `json:"description"`
ResolveType ResolveTypeFn
typeConfig UnionConfig
types []*Object
possibleTypes map[string]bool
err error
}
type UnionConfig struct {
Name string `json:"name"`
Types []*Object `json:"types"`
ResolveType ResolveTypeFn
Description string `json:"description"`
}
func NewUnion(config UnionConfig) *Union {
objectType := &Union{}
if objectType.err = invariant(config.Name != "", "Type must be named."); objectType.err != nil {
return objectType
}
if objectType.err = assertValidName(config.Name); objectType.err != nil {
return objectType
}
objectType.PrivateName = config.Name
objectType.PrivateDescription = config.Description
objectType.ResolveType = config.ResolveType
if objectType.err = invariantf(
len(config.Types) > 0,
`Must provide Array of types for Union %v.`, config.Name,
); objectType.err != nil {
return objectType
}
for _, ttype := range config.Types {
if objectType.err = invariantf(
ttype != nil,
`%v may only contain Object types, it cannot contain: %v.`, objectType, ttype,
); objectType.err != nil {
return objectType
}
if objectType.ResolveType == nil {
if objectType.err = invariantf(
ttype.IsTypeOf != nil,
`Union Type %v does not provide a "resolveType" function `+
`and possible Type %v does not provide a "isTypeOf" `+
`function. There is no way to resolve this possible type `+
`during execution.`, objectType, ttype,
); objectType.err != nil {
return objectType
}
}
}
objectType.types = config.Types
objectType.typeConfig = config
return objectType
}
func (ut *Union) Types() []*Object {
return ut.types
}
func (ut *Union) String() string {
return ut.PrivateName
}
func (ut *Union) Name() string {
return ut.PrivateName
}
func (ut *Union) Description() string {
return ut.PrivateDescription
}
func (ut *Union) Error() error {
return ut.err
}
// Enum Type Definition
//
// 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.
//
// Example:
//
// var RGBType = new Enum({
// name: 'RGB',
// values: {
// RED: { value: 0 },
// GREEN: { value: 1 },
// BLUE: { value: 2 }
// }
// });
//
// Note: If a value is not provided in a definition, the name of the enum value
// will be used as its internal value.
type Enum struct {
PrivateName string `json:"name"`
PrivateDescription string `json:"description"`
enumConfig EnumConfig
values []*EnumValueDefinition
valuesLookup map[interface{}]*EnumValueDefinition
nameLookup map[string]*EnumValueDefinition
err error
}
type EnumValueConfigMap map[string]*EnumValueConfig
type EnumValueConfig struct {
Value interface{} `json:"value"`
DeprecationReason string `json:"deprecationReason"`
Description string `json:"description"`
}
type EnumConfig struct {
Name string `json:"name"`
Values EnumValueConfigMap `json:"values"`
Description string `json:"description"`
}
type EnumValueDefinition struct {
Name string `json:"name"`
Value interface{} `json:"value"`
DeprecationReason string `json:"deprecationReason"`
Description string `json:"description"`
}
func NewEnum(config EnumConfig) *Enum {
gt := &Enum{}
gt.enumConfig = config
if gt.err = assertValidName(config.Name); gt.err != nil {
return gt
}
gt.PrivateName = config.Name
gt.PrivateDescription = config.Description
if gt.values, gt.err = gt.defineEnumValues(config.Values); gt.err != nil {
return gt
}
return gt
}
func (gt *Enum) defineEnumValues(valueMap EnumValueConfigMap) ([]*EnumValueDefinition, error) {
var err error
values := []*EnumValueDefinition{}
if err = invariantf(
len(valueMap) > 0,
`%v values must be an object with value names as keys.`, gt,
); err != nil {
return values, err
}
for valueName, valueConfig := range valueMap {
if err = invariantf(
valueConfig != nil,
`%v.%v must refer to an object with a "value" key `+
`representing an internal value but got: %v.`, gt, valueName, valueConfig,
); err != nil {
return values, err
}
if err = assertValidName(valueName); err != nil {
return values, err
}
value := &EnumValueDefinition{
Name: valueName,
Value: valueConfig.Value,
DeprecationReason: valueConfig.DeprecationReason,
Description: valueConfig.Description,
}
if value.Value == nil {
value.Value = valueName
}
values = append(values, value)
}
return values, nil
}
func (gt *Enum) Values() []*EnumValueDefinition {
return gt.values
}
func (gt *Enum) Serialize(value interface{}) interface{} {
v := value
rv := reflect.ValueOf(v)
if kind := rv.Kind(); kind == reflect.Ptr && rv.IsNil() {
return nil
} else if kind == reflect.Ptr {
v = reflect.Indirect(reflect.ValueOf(v)).Interface()
}
if enumValue, ok := gt.getValueLookup()[v]; ok {
return enumValue.Name
}
return nil
}
func (gt *Enum) ParseValue(value interface{}) interface{} {
var v string
switch value := value.(type) {
case string:
v = value
case *string:
v = *value
default:
return nil
}
if enumValue, ok := gt.getNameLookup()[v]; ok {
return enumValue.Value
}