// Given a variable definition, and any value of input, return a value which // adheres to the variable definition, or throw an error. func getVariableValue(schema Schema, definitionAST *ast.VariableDefinition, input interface{}) (interface{}, error) { ttype, err := typeFromAST(schema, definitionAST.Type) if err != nil { return nil, err } variable := definitionAST.Variable if ttype == nil || !IsInputType(ttype) { return "", gqlerrors.NewError( fmt.Sprintf(`Variable "$%v" expected value of type `+ `"%v" which cannot be used as an input type.`, variable.Name.Value, printer.Print(definitionAST.Type)), []ast.Node{definitionAST}, "", nil, []int{}, ) } if isValidInputValue(input, ttype) { if isNullish(input) { defaultValue := definitionAST.DefaultValue if defaultValue != nil { variables := map[string]interface{}{} val := valueFromAST(defaultValue, ttype, variables) return val, nil } } return coerceValue(ttype, input), nil } if isNullish(input) { return "", gqlerrors.NewError( fmt.Sprintf(`Variable "$%v" of required type `+ `"%v" was not provided.`, variable.Name.Value, printer.Print(definitionAST.Type)), []ast.Node{definitionAST}, "", nil, []int{}, ) } inputStr := "" b, err := json.Marshal(input) if err == nil { inputStr = string(b) } return "", gqlerrors.NewError( fmt.Sprintf(`Variable "$%v" expected value of type `+ `"%v" but got: %v.`, variable.Name.Value, printer.Print(definitionAST.Type), inputStr), []ast.Node{definitionAST}, "", nil, []int{}, ) }
func TestPrinter_PrintsMinimalAST(t *testing.T) { astDoc := ast.NewField(&ast.Field{ Name: ast.NewName(&ast.Name{ Value: "foo", }), }) results := printer.Print(astDoc) expected := "foo" if !reflect.DeepEqual(results, expected) { t.Fatalf("Unexpected result, Diff: %v", testutil.Diff(expected, results)) } }
func TestSchemaPrinter_PrintsMinimalAST(t *testing.T) { astDoc := ast.NewScalarDefinition(&ast.ScalarDefinition{ Name: ast.NewName(&ast.Name{ Value: "foo", }), }) results := printer.Print(astDoc) expected := "scalar foo" if !reflect.DeepEqual(results, expected) { t.Fatalf("Unexpected result, Diff: %v", testutil.Diff(expected, results)) } }
func TestPrinter_PrintsKitchenSink(t *testing.T) { b, err := ioutil.ReadFile("../../kitchen-sink.graphql") if err != nil { t.Fatalf("unable to load kitchen-sink.graphql") } query := string(b) astDoc := parse(t, query) expected := `query namedQuery($foo: ComplexFooType, $bar: Bar = DefaultBarValue) { customUser: user(id: [987, 654]) { id ... on User @defer { field2 { id alias: field1(first: 10, after: $foo) @include(if: $foo) { id ...frag } } } } } mutation favPost { fav(post: 123) @defer { post { id } } } fragment frag on Follower { foo(size: $size, bar: $b, obj: {key: "value"}) } { unnamed(truthyVal: true, falseyVal: false) query } ` results := printer.Print(astDoc) if !reflect.DeepEqual(expected, results) { t.Fatalf("Unexpected result, Diff: %v", testutil.Diff(results, expected)) } }
func TestSchemaPrinter_PrintsKitchenSink(t *testing.T) { b, err := ioutil.ReadFile("../../schema-kitchen-sink.graphql") if err != nil { t.Fatalf("unable to load schema-kitchen-sink.graphql") } query := string(b) astDoc := parse(t, query) expected := `type Foo implements Bar { one: Type two(argument: InputType!): Type three(argument: InputType, other: String): Int four(argument: String = "string"): String five(argument: [String] = ["string", "string"]): String six(argument: InputType = {key: "value"}): Type } interface Bar { one: Type four(argument: String = "string"): String } union Feed = Story | Article | Advert scalar CustomScalar enum Site { DESKTOP MOBILE } input InputType { key: String! answer: Int = 42 } extend type Foo { seven(argument: [String]): Type } ` results := printer.Print(astDoc) if !reflect.DeepEqual(expected, results) { t.Fatalf("Unexpected result, Diff: %v", testutil.Diff(results, expected)) } }
func TestPrinter_DoesNotAlterAST(t *testing.T) { b, err := ioutil.ReadFile("../../kitchen-sink.graphql") if err != nil { t.Fatalf("unable to load kitchen-sink.graphql") } query := string(b) astDoc := parse(t, query) astDocBefore := testutil.ASTToJSON(t, astDoc) _ = printer.Print(astDoc) astDocAfter := testutil.ASTToJSON(t, astDoc) _ = testutil.ASTToJSON(t, astDoc) if !reflect.DeepEqual(astDocAfter, astDocBefore) { t.Fatalf("Unexpected result, Diff: %v", testutil.Diff(astDocAfter, astDocBefore)) } }
func init() { __TypeKind = 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.", }, }, }) // Note: some fields (for e.g "fields", "interfaces") are defined later due to cyclic reference __Type = NewObject(ObjectConfig{ Name: "__Type", Fields: FieldConfigMap{ "kind": &FieldConfig{ Type: NewNonNull(__TypeKind), Resolve: func(p GQLFRParams) interface{} { switch p.Source.(type) { case *Scalar: return TypeKindScalar case *Object: return TypeKindObject case *Interface: return TypeKindInterface case *Union: return TypeKindUnion case *Enum: return TypeKindEnum case *InputObject: return TypeKindInputObject case *List: return TypeKindList case *NonNull: return TypeKindNonNull } panic(fmt.Sprintf("Unknown kind of type: %v", p.Source)) }, }, "name": &FieldConfig{ Type: String, }, "description": &FieldConfig{ Type: String, }, "fields": &FieldConfig{}, "interfaces": &FieldConfig{}, "possibleTypes": &FieldConfig{}, "enumValues": &FieldConfig{}, "inputFields": &FieldConfig{}, "ofType": &FieldConfig{}, }, }) __InputValue = NewObject(ObjectConfig{ Name: "__InputValue", Fields: FieldConfigMap{ "name": &FieldConfig{ Type: NewNonNull(String), }, "description": &FieldConfig{ Type: String, }, "type": &FieldConfig{ Type: NewNonNull(__Type), }, "defaultValue": &FieldConfig{ Type: String, Resolve: func(p GQLFRParams) interface{} { if inputVal, ok := p.Source.(*Argument); ok { if inputVal.DefaultValue == nil { return nil } astVal := astFromValue(inputVal.DefaultValue, inputVal) return printer.Print(astVal) } if inputVal, ok := p.Source.(*InputObjectField); ok { if inputVal.DefaultValue == nil { return nil } astVal := astFromValue(inputVal.DefaultValue, inputVal) return printer.Print(astVal) } return nil }, }, }, }) __Field = NewObject(ObjectConfig{ Name: "__Field", Fields: FieldConfigMap{ "name": &FieldConfig{ Type: NewNonNull(String), }, "description": &FieldConfig{ Type: String, }, "args": &FieldConfig{ Type: NewNonNull(NewList(NewNonNull(__InputValue))), Resolve: func(p GQLFRParams) interface{} { if field, ok := p.Source.(*FieldDefinition); ok { return field.Args } return []interface{}{} }, }, "type": &FieldConfig{ Type: NewNonNull(__Type), }, "isDeprecated": &FieldConfig{ Type: NewNonNull(Boolean), Resolve: func(p GQLFRParams) interface{} { if field, ok := p.Source.(*FieldDefinition); ok { return (field.DeprecationReason != "") } return false }, }, "deprecationReason": &FieldConfig{ Type: String, }, }, }) __Directive = NewObject(ObjectConfig{ Name: "__Directive", Fields: FieldConfigMap{ "name": &FieldConfig{ Type: NewNonNull(String), }, "description": &FieldConfig{ Type: String, }, "args": &FieldConfig{ Type: NewNonNull(NewList( NewNonNull(__InputValue), )), }, "onOperation": &FieldConfig{ Type: NewNonNull(Boolean), }, "onFragment": &FieldConfig{ Type: NewNonNull(Boolean), }, "onField": &FieldConfig{ Type: NewNonNull(Boolean), }, }, }) __Schema = 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 and mutation operations.`, Fields: FieldConfigMap{ "types": &FieldConfig{ Description: "A list of all types supported by this server.", Type: NewNonNull(NewList( NewNonNull(__Type), )), Resolve: func(p GQLFRParams) interface{} { if schema, ok := p.Source.(Schema); ok { results := []Type{} for _, ttype := range schema.GetTypeMap() { results = append(results, ttype) } return results } return []Type{} }, }, "queryType": &FieldConfig{ Description: "The type that query operations will be rooted at.", Type: NewNonNull(__Type), Resolve: func(p GQLFRParams) interface{} { if schema, ok := p.Source.(Schema); ok { return schema.GetQueryType() } return nil }, }, "mutationType": &FieldConfig{ Description: `If this server supports mutation, the type that ` + `mutation operations will be rooted at.`, Type: __Type, Resolve: func(p GQLFRParams) interface{} { if schema, ok := p.Source.(Schema); ok { if schema.GetMutationType() != nil { return schema.GetMutationType() } } return nil }, }, "directives": &FieldConfig{ Description: `A list of all directives supported by this server.`, Type: NewNonNull(NewList( NewNonNull(__Directive), )), Resolve: func(p GQLFRParams) interface{} { if schema, ok := p.Source.(Schema); ok { return schema.GetDirectives() } return nil }, }, }, }) __EnumValue = NewObject(ObjectConfig{ Name: "__EnumValue", Fields: FieldConfigMap{ "name": &FieldConfig{ Type: NewNonNull(String), }, "description": &FieldConfig{ Type: String, }, "isDeprecated": &FieldConfig{ Type: NewNonNull(Boolean), Resolve: func(p GQLFRParams) interface{} { if field, ok := p.Source.(*EnumValueDefinition); ok { return (field.DeprecationReason != "") } return false }, }, "deprecationReason": &FieldConfig{ 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 __Type.AddFieldConfig("fields", &FieldConfig{ Type: NewList(NewNonNull(__Field)), Args: FieldConfigArgument{ "includeDeprecated": &ArgumentConfig{ Type: Boolean, DefaultValue: false, }, }, Resolve: func(p GQLFRParams) interface{} { includeDeprecated, _ := p.Args["includeDeprecated"].(bool) switch ttype := p.Source.(type) { case *Object: if ttype == nil { return nil } fields := []*FieldDefinition{} for _, field := range ttype.GetFields() { if !includeDeprecated && field.DeprecationReason != "" { continue } fields = append(fields, field) } return fields case *Interface: if ttype == nil { return nil } fields := []*FieldDefinition{} for _, field := range ttype.GetFields() { if !includeDeprecated && field.DeprecationReason != "" { continue } fields = append(fields, field) } return fields } return nil }, }) __Type.AddFieldConfig("interfaces", &FieldConfig{ Type: NewList(NewNonNull(__Type)), Resolve: func(p GQLFRParams) interface{} { switch ttype := p.Source.(type) { case *Object: return ttype.GetInterfaces() } return nil }, }) __Type.AddFieldConfig("possibleTypes", &FieldConfig{ Type: NewList(NewNonNull(__Type)), Resolve: func(p GQLFRParams) interface{} { switch ttype := p.Source.(type) { case *Interface: return ttype.GetPossibleTypes() case *Union: return ttype.GetPossibleTypes() } return nil }, }) __Type.AddFieldConfig("enumValues", &FieldConfig{ Type: NewList(NewNonNull(__EnumValue)), Args: FieldConfigArgument{ "includeDeprecated": &ArgumentConfig{ Type: Boolean, DefaultValue: false, }, }, Resolve: func(p GQLFRParams) interface{} { includeDeprecated, _ := p.Args["includeDeprecated"].(bool) switch ttype := p.Source.(type) { case *Enum: if includeDeprecated { return ttype.GetValues() } values := []*EnumValueDefinition{} for _, value := range ttype.GetValues() { if value.DeprecationReason != "" { continue } values = append(values, value) } return values } return nil }, }) __Type.AddFieldConfig("inputFields", &FieldConfig{ Type: NewList(NewNonNull(__InputValue)), Resolve: func(p GQLFRParams) interface{} { switch ttype := p.Source.(type) { case *InputObject: fields := []*InputObjectField{} for _, field := range ttype.GetFields() { fields = append(fields, field) } return fields } return nil }, }) __Type.AddFieldConfig("ofType", &FieldConfig{ Type: __Type, }) /** * Note that these are FieldDefinition and not FieldConfig, * so the format for args is different. */ SchemaMetaFieldDef = &FieldDefinition{ Name: "__schema", Type: NewNonNull(__Schema), Description: "Access the current type schema of this server.", Args: []*Argument{}, Resolve: func(p GQLFRParams) interface{} { return p.Info.Schema }, } TypeMetaFieldDef = &FieldDefinition{ Name: "__type", Type: __Type, Description: "Request the type information of a single type.", Args: []*Argument{ &Argument{ Name: "name", Type: NewNonNull(String), }, }, Resolve: func(p GQLFRParams) interface{} { name, ok := p.Args["name"].(string) if !ok { return nil } return p.Info.Schema.GetType(name) }, } TypeNameMetaFieldDef = &FieldDefinition{ Name: "__typename", Type: NewNonNull(String), Description: "The name of the current Object type at runtime.", Args: []*Argument{}, Resolve: func(p GQLFRParams) interface{} { return p.Info.ParentType.GetName() }, } }