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introspection.go
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package graphql
import (
"fmt"
"reflect"
"github.com/housinganywhere/graphql/language/ast"
"github.com/housinganywhere/graphql/language/printer"
)
const (
TypeKindScalar = "SCALAR"
TypeKindObject = "OBJECT"
TypeKindInterface = "INTERFACE"
TypeKindUnion = "UNION"
TypeKindEnum = "ENUM"
TypeKindInputObject = "INPUT_OBJECT"
TypeKindList = "LIST"
TypeKindNonNull = "NON_NULL"
)
var directiveType *Object
var schemaType *Object
var typeType *Object
var fieldType *Object
var inputValueType *Object
var enumValueType *Object
var typeKindEnum *Enum
var directiveLocationEnum *Enum
var SchemaMetaFieldDef *FieldDefinition
var TypeMetaFieldDef *FieldDefinition
var TypeNameMetaFieldDef *FieldDefinition
func init() {
typeKindEnum = NewEnum(EnumConfig{
Name: "__TypeKind",
Description: "An enum describing what kind of type a given `__Type` is",
Values: EnumValueConfigMap{
"SCALAR": &EnumValueConfig{
Value: TypeKindScalar,
Description: "Indicates this type is a scalar.",
},
"OBJECT": &EnumValueConfig{
Value: TypeKindObject,
Description: "Indicates this type is an object. " +
"`fields` and `interfaces` are valid fields.",
},
"INTERFACE": &EnumValueConfig{
Value: TypeKindInterface,
Description: "Indicates this type is an interface. " +
"`fields` and `possibleTypes` are valid fields.",
},
"UNION": &EnumValueConfig{
Value: TypeKindUnion,
Description: "Indicates this type is a union. " +
"`possibleTypes` is a valid field.",
},
"ENUM": &EnumValueConfig{
Value: TypeKindEnum,
Description: "Indicates this type is an enum. " +
"`enumValues` is a valid field.",
},
"INPUT_OBJECT": &EnumValueConfig{
Value: TypeKindInputObject,
Description: "Indicates this type is an input object. " +
"`inputFields` is a valid field.",
},
"LIST": &EnumValueConfig{
Value: TypeKindList,
Description: "Indicates this type is a list. " +
"`ofType` is a valid field.",
},
"NON_NULL": &EnumValueConfig{
Value: TypeKindNonNull,
Description: "Indicates this type is a non-null. " +
"`ofType` is a valid field.",
},
},
})
directiveLocationEnum = NewEnum(EnumConfig{
Name: "__DirectiveLocation",
Description: "A Directive can be adjacent to many parts of the GraphQL language, a " +
"__DirectiveLocation describes one such possible adjacencies.",
Values: EnumValueConfigMap{
"QUERY": &EnumValueConfig{
Value: DirectiveLocationQuery,
Description: "Location adjacent to a query operation.",
},
"MUTATION": &EnumValueConfig{
Value: DirectiveLocationMutation,
Description: "Location adjacent to a mutation operation.",
},
"SUBSCRIPTION": &EnumValueConfig{
Value: DirectiveLocationSubscription,
Description: "Location adjacent to a subscription operation.",
},
"FIELD": &EnumValueConfig{
Value: DirectiveLocationField,
Description: "Location adjacent to a field.",
},
"FRAGMENT_DEFINITION": &EnumValueConfig{
Value: DirectiveLocationFragmentDefinition,
Description: "Location adjacent to a fragment definition.",
},
"FRAGMENT_SPREAD": &EnumValueConfig{
Value: DirectiveLocationFragmentSpread,
Description: "Location adjacent to a fragment spread.",
},
"INLINE_FRAGMENT": &EnumValueConfig{
Value: DirectiveLocationInlineFragment,
Description: "Location adjacent to an inline fragment.",
},
},
})
// Note: some fields (for e.g "fields", "interfaces") are defined later due to cyclic reference
typeType = NewObject(ObjectConfig{
Name: "__Type",
Description: "The fundamental unit of any GraphQL Schema is the type. There are " +
"many kinds of types in GraphQL as represented by the `__TypeKind` enum." +
"\n\nDepending on the kind of a type, certain fields describe " +
"information about that type. Scalar types provide no information " +
"beyond a name and description, while Enum types provide their values. " +
"Object and Interface types provide the fields they describe. Abstract " +
"types, Union and Interface, provide the Object types possible " +
"at runtime. List and NonNull types compose other types.",
Fields: Fields{
"kind": &Field{
Type: NewNonNull(typeKindEnum),
Resolve: func(p ResolveParams) (interface{}, error) {
switch p.Source.(type) {
case *Scalar:
return TypeKindScalar, nil
case *Object:
return TypeKindObject, nil
case *Interface:
return TypeKindInterface, nil
case *Union:
return TypeKindUnion, nil
case *Enum:
return TypeKindEnum, nil
case *InputObject:
return TypeKindInputObject, nil
case *List:
return TypeKindList, nil
case *NonNull:
return TypeKindNonNull, nil
}
return nil, fmt.Errorf("Unknown kind of type: %v", p.Source)
},
},
"name": &Field{
Type: String,
},
"description": &Field{
Type: String,
},
"fields": &Field{},
"interfaces": &Field{},
"possibleTypes": &Field{},
"enumValues": &Field{},
"inputFields": &Field{},
"ofType": &Field{},
},
})
inputValueType = NewObject(ObjectConfig{
Name: "__InputValue",
Description: "Arguments provided to Fields or Directives and the input fields of an " +
"InputObject are represented as Input Values which describe their type " +
"and optionally a default value.",
Fields: Fields{
"name": &Field{
Type: NewNonNull(String),
},
"description": &Field{
Type: String,
},
"type": &Field{
Type: NewNonNull(typeType),
},
"defaultValue": &Field{
Type: String,
Description: "A GraphQL-formatted string representing the default value for this " +
"input value.",
Resolve: func(p ResolveParams) (interface{}, error) {
if inputVal, ok := p.Source.(*Argument); ok {
if inputVal.DefaultValue == nil {
return nil, nil
}
if isNullish(inputVal.DefaultValue) {
return nil, nil
}
astVal := astFromValue(inputVal.DefaultValue, inputVal)
return printer.Print(astVal), nil
}
if inputVal, ok := p.Source.(*InputObjectField); ok {
if inputVal.DefaultValue == nil {
return nil, nil
}
astVal := astFromValue(inputVal.DefaultValue, inputVal)
return printer.Print(astVal), nil
}
return nil, nil
},
},
},
})
fieldType = NewObject(ObjectConfig{
Name: "__Field",
Description: "Object and Interface types are described by a list of Fields, each of " +
"which has a name, potentially a list of arguments, and a return type.",
Fields: Fields{
"name": &Field{
Type: NewNonNull(String),
},
"description": &Field{
Type: String,
},
"args": &Field{
Type: NewNonNull(NewList(NewNonNull(inputValueType))),
Resolve: func(p ResolveParams) (interface{}, error) {
if field, ok := p.Source.(*FieldDefinition); ok {
return field.Args, nil
}
return []interface{}{}, nil
},
},
"type": &Field{
Type: NewNonNull(typeType),
},
"isDeprecated": &Field{
Type: NewNonNull(Boolean),
Resolve: func(p ResolveParams) (interface{}, error) {
if field, ok := p.Source.(*FieldDefinition); ok {
return (field.DeprecationReason != ""), nil
}
return false, nil
},
},
"deprecationReason": &Field{
Type: String,
},
},
})
directiveType = NewObject(ObjectConfig{
Name: "__Directive",
Description: "A Directive provides a way to describe alternate runtime execution and " +
"type validation behavior in a GraphQL document. " +
"\n\nIn some cases, you need to provide options to alter GraphQL's " +
"execution behavior in ways field arguments will not suffice, such as " +
"conditionally including or skipping a field. Directives provide this by " +
"describing additional information to the executor.",
Fields: Fields{
"name": &Field{
Type: NewNonNull(String),
},
"description": &Field{
Type: String,
},
"locations": &Field{
Type: NewNonNull(NewList(
NewNonNull(directiveLocationEnum),
)),
},
"args": &Field{
Type: NewNonNull(NewList(
NewNonNull(inputValueType),
)),
},
// NOTE: the following three fields are deprecated and are no longer part
// of the GraphQL specification.
"onOperation": &Field{
DeprecationReason: "Use `locations`.",
Type: NewNonNull(Boolean),
Resolve: func(p ResolveParams) (interface{}, error) {
if dir, ok := p.Source.(*Directive); ok {
res := false
for _, loc := range dir.Locations {
if loc == DirectiveLocationQuery ||
loc == DirectiveLocationMutation ||
loc == DirectiveLocationSubscription {
res = true
break
}
}
return res, nil
}
return false, nil
},
},
"onFragment": &Field{
DeprecationReason: "Use `locations`.",
Type: NewNonNull(Boolean),
Resolve: func(p ResolveParams) (interface{}, error) {
if dir, ok := p.Source.(*Directive); ok {
res := false
for _, loc := range dir.Locations {
if loc == DirectiveLocationFragmentSpread ||
loc == DirectiveLocationInlineFragment ||
loc == DirectiveLocationFragmentDefinition {
res = true
break
}
}
return res, nil
}
return false, nil
},
},
"onField": &Field{
DeprecationReason: "Use `locations`.",
Type: NewNonNull(Boolean),
Resolve: func(p ResolveParams) (interface{}, error) {
if dir, ok := p.Source.(*Directive); ok {
res := false
for _, loc := range dir.Locations {
if loc == DirectiveLocationField {
res = true
break
}
}
return res, nil
}
return false, nil
},
},
},
})
schemaType = NewObject(ObjectConfig{
Name: "__Schema",
Description: `A GraphQL Schema defines the capabilities of a GraphQL server. ` +
`It exposes all available types and directives on the server, as well as ` +
`the entry points for query, mutation, and subscription operations.`,
Fields: Fields{
"types": &Field{
Description: "A list of all types supported by this server.",
Type: NewNonNull(NewList(
NewNonNull(typeType),
)),
Resolve: func(p ResolveParams) (interface{}, error) {
if schema, ok := p.Source.(Schema); ok {
results := []Type{}
for _, ttype := range schema.TypeMap() {
results = append(results, ttype)
}
return results, nil
}
return []Type{}, nil
},
},
"queryType": &Field{
Description: "The type that query operations will be rooted at.",
Type: NewNonNull(typeType),
Resolve: func(p ResolveParams) (interface{}, error) {
if schema, ok := p.Source.(Schema); ok {
return schema.QueryType(), nil
}
return nil, nil
},
},
"mutationType": &Field{
Description: `If this server supports mutation, the type that ` +
`mutation operations will be rooted at.`,
Type: typeType,
Resolve: func(p ResolveParams) (interface{}, error) {
if schema, ok := p.Source.(Schema); ok {
if schema.MutationType() != nil {
return schema.MutationType(), nil
}
}
return nil, nil
},
},
"subscriptionType": &Field{
Description: `If this server supports subscription, the type that ` +
`subscription operations will be rooted at.`,
Type: typeType,
Resolve: func(p ResolveParams) (interface{}, error) {
if schema, ok := p.Source.(Schema); ok {
if schema.SubscriptionType() != nil {
return schema.SubscriptionType(), nil
}
}
return nil, nil
},
},
"directives": &Field{
Description: `A list of all directives supported by this server.`,
Type: NewNonNull(NewList(
NewNonNull(directiveType),
)),
Resolve: func(p ResolveParams) (interface{}, error) {
if schema, ok := p.Source.(Schema); ok {
return schema.Directives(), nil
}
return nil, nil
},
},
},
})
enumValueType = NewObject(ObjectConfig{
Name: "__EnumValue",
Description: "One possible value for a given Enum. Enum values are unique values, not " +
"a placeholder for a string or numeric value. However an Enum value is " +
"returned in a JSON response as a string.",
Fields: Fields{
"name": &Field{
Type: NewNonNull(String),
},
"description": &Field{
Type: String,
},
"isDeprecated": &Field{
Type: NewNonNull(Boolean),
Resolve: func(p ResolveParams) (interface{}, error) {
if field, ok := p.Source.(*EnumValueDefinition); ok {
return (field.DeprecationReason != ""), nil
}
return false, nil
},
},
"deprecationReason": &Field{
Type: String,
},
},
})
// Again, adding field configs to __Type that have cyclic reference here
// because golang don't like them too much during init/compile-time
typeType.AddFieldConfig("fields", &Field{
Type: NewList(NewNonNull(fieldType)),
Args: FieldConfigArgument{
"includeDeprecated": &ArgumentConfig{
Type: Boolean,
DefaultValue: false,
},
},
Resolve: func(p ResolveParams) (interface{}, error) {
includeDeprecated, _ := p.Args["includeDeprecated"].(bool)
switch ttype := p.Source.(type) {
case *Object:
if ttype == nil {
return nil, nil
}
fields := []*FieldDefinition{}
for _, field := range ttype.Fields() {
if !includeDeprecated && field.DeprecationReason != "" {
continue
}
fields = append(fields, field)
}
return fields, nil
case *Interface:
if ttype == nil {
return nil, nil
}
fields := []*FieldDefinition{}
for _, field := range ttype.Fields() {
if !includeDeprecated && field.DeprecationReason != "" {
continue
}
fields = append(fields, field)
}
return fields, nil
}
return nil, nil
},
})
typeType.AddFieldConfig("interfaces", &Field{
Type: NewList(NewNonNull(typeType)),
Resolve: func(p ResolveParams) (interface{}, error) {
switch ttype := p.Source.(type) {
case *Object:
return ttype.Interfaces(), nil
}
return nil, nil
},
})
typeType.AddFieldConfig("possibleTypes", &Field{
Type: NewList(NewNonNull(typeType)),
Resolve: func(p ResolveParams) (interface{}, error) {
switch ttype := p.Source.(type) {
case *Interface:
return p.Info.Schema.PossibleTypes(ttype), nil
case *Union:
return p.Info.Schema.PossibleTypes(ttype), nil
}
return nil, nil
},
})
typeType.AddFieldConfig("enumValues", &Field{
Type: NewList(NewNonNull(enumValueType)),
Args: FieldConfigArgument{
"includeDeprecated": &ArgumentConfig{
Type: Boolean,
DefaultValue: false,
},
},
Resolve: func(p ResolveParams) (interface{}, error) {
includeDeprecated, _ := p.Args["includeDeprecated"].(bool)
switch ttype := p.Source.(type) {
case *Enum:
if includeDeprecated {
return ttype.Values(), nil
}
values := []*EnumValueDefinition{}
for _, value := range ttype.Values() {
if value.DeprecationReason != "" {
continue
}
values = append(values, value)
}
return values, nil
}
return nil, nil
},
})
typeType.AddFieldConfig("inputFields", &Field{
Type: NewList(NewNonNull(inputValueType)),
Resolve: func(p ResolveParams) (interface{}, error) {
switch ttype := p.Source.(type) {
case *InputObject:
fields := []*InputObjectField{}
for _, field := range ttype.Fields() {
fields = append(fields, field)
}
return fields, nil
}
return nil, nil
},
})
typeType.AddFieldConfig("ofType", &Field{
Type: typeType,
})
// Note that these are FieldDefinition and not FieldConfig,
// so the format for args is different. d
SchemaMetaFieldDef = &FieldDefinition{
Name: "__schema",
Type: NewNonNull(schemaType),
Description: "Access the current type schema of this server.",
Args: []*Argument{},
Resolve: func(p ResolveParams) (interface{}, error) {
return p.Info.Schema, nil
},
}
TypeMetaFieldDef = &FieldDefinition{
Name: "__type",
Type: typeType,
Description: "Request the type information of a single type.",
Args: []*Argument{
{
PrivateName: "name",
Type: NewNonNull(String),
},
},
Resolve: func(p ResolveParams) (interface{}, error) {
name, ok := p.Args["name"].(string)
if !ok {
return nil, nil
}
return p.Info.Schema.Type(name), nil
},
}
TypeNameMetaFieldDef = &FieldDefinition{
Name: "__typename",
Type: NewNonNull(String),
Description: "The name of the current Object type at runtime.",
Args: []*Argument{},
Resolve: func(p ResolveParams) (interface{}, error) {
return p.Info.ParentType.Name(), nil
},
}
}
// Produces a GraphQL Value AST given a Golang value.
//
// Optionally, a GraphQL type may be provided, which will be used to
// disambiguate between value primitives.
//
// | JSON Value | GraphQL Value |
// | ------------- | -------------------- |
// | Object | Input Object |
// | Array | List |
// | Boolean | Boolean |
// | String | String / Enum Value |
// | Number | Int / Float |
func astFromValue(value interface{}, ttype Type) ast.Value {
if ttype, ok := ttype.(*NonNull); ok {
// Note: we're not checking that the result is non-null.
// This function is not responsible for validating the input value.
val := astFromValue(value, ttype.OfType)
return val
}
if isNullish(value) {
return nil
}
valueVal := reflect.ValueOf(value)
if !valueVal.IsValid() {
return nil
}
if valueVal.Type().Kind() == reflect.Ptr {
valueVal = valueVal.Elem()
}
if !valueVal.IsValid() {
return nil
}
// Convert Golang slice to GraphQL list. If the Type is a list, but
// the value is not an array, convert the value using the list's item type.
if ttype, ok := ttype.(*List); ok {
if valueVal.Type().Kind() == reflect.Slice {
itemType := ttype.OfType
values := []ast.Value{}
for i := 0; i < valueVal.Len(); i++ {
item := valueVal.Index(i).Interface()
itemAST := astFromValue(item, itemType)
if itemAST != nil {
values = append(values, itemAST)
}
}
return ast.NewListValue(&ast.ListValue{
Values: values,
})
}
// Because GraphQL will accept single values as a "list of one" when
// expecting a list, if there's a non-array value and an expected list type,
// create an AST using the list's item type.
val := astFromValue(value, ttype.OfType)
return val
}
if valueVal.Type().Kind() == reflect.Map {
// TODO: implement astFromValue from Map to Value
}
if value, ok := value.(bool); ok {
return ast.NewBooleanValue(&ast.BooleanValue{
Value: value,
})
}
if value, ok := value.(int); ok {
if ttype == Float {
return ast.NewIntValue(&ast.IntValue{
Value: fmt.Sprintf("%v.0", value),
})
}
return ast.NewIntValue(&ast.IntValue{
Value: fmt.Sprintf("%v", value),
})
}
if value, ok := value.(float32); ok {
return ast.NewFloatValue(&ast.FloatValue{
Value: fmt.Sprintf("%v", value),
})
}
if value, ok := value.(float64); ok {
return ast.NewFloatValue(&ast.FloatValue{
Value: fmt.Sprintf("%v", value),
})
}
if value, ok := value.(string); ok {
if _, ok := ttype.(*Enum); ok {
return ast.NewEnumValue(&ast.EnumValue{
Value: fmt.Sprintf("%v", value),
})
}
return ast.NewStringValue(&ast.StringValue{
Value: fmt.Sprintf("%v", value),
})
}
// fallback, treat as string
return ast.NewStringValue(&ast.StringValue{
Value: fmt.Sprintf("%v", value),
})
}