/
generated.go
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/
generated.go
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// Code generated by github.com/99designs/gqlgen, DO NOT EDIT.
package out
import (
"fmt"
"io"
"strconv"
)
type A interface {
IsA()
GetA() string
}
type ArrayOfA interface {
IsArrayOfA()
GetTrickyField() []A
GetTrickyFieldPointer() []A
}
type B interface {
IsB()
GetB() int
}
type C interface {
IsA()
IsC()
GetA() string
GetC() bool
}
type D interface {
IsA()
IsB()
IsD()
GetA() string
GetB() int
GetD() *string
}
type FooBarer interface {
IsFooBarer()
GetName() string
}
// InterfaceWithDescription is an interface with a description
type InterfaceWithDescription interface {
IsInterfaceWithDescription()
GetName() *string
}
type MissingInterface interface {
IsMissingInterface()
GetName() *string
}
type MissingUnion interface {
IsMissingUnion()
}
// UnionWithDescription is an union with a description
type UnionWithDescription interface {
IsUnionWithDescription()
}
type X interface {
IsX()
GetId() string
}
type CDImplemented struct {
A string `json:"a" database:"CDImplementeda"`
B int `json:"b" database:"CDImplementedb"`
C bool `json:"c" database:"CDImplementedc"`
D *string `json:"d" database:"CDImplementedd"`
}
func (CDImplemented) IsC() {}
func (this CDImplemented) GetA() string { return this.A }
func (this CDImplemented) GetC() bool { return this.C }
func (CDImplemented) IsA() {}
func (CDImplemented) IsD() {}
func (this CDImplemented) GetB() int { return this.B }
func (this CDImplemented) GetD() *string { return this.D }
func (CDImplemented) IsB() {}
type CyclicalA struct {
FieldOne *CyclicalB `json:"field_one" database:"CyclicalAfield_one"`
FieldTwo *CyclicalB `json:"field_two" database:"CyclicalAfield_two"`
FieldThree *CyclicalB `json:"field_three" database:"CyclicalAfield_three"`
FieldFour string `json:"field_four" database:"CyclicalAfield_four"`
}
type CyclicalB struct {
FieldOne *CyclicalA `json:"field_one" database:"CyclicalBfield_one"`
FieldTwo *CyclicalA `json:"field_two" database:"CyclicalBfield_two"`
FieldThree *CyclicalA `json:"field_three" database:"CyclicalBfield_three"`
FieldFour *CyclicalA `json:"field_four" database:"CyclicalBfield_four"`
FieldFive string `json:"field_five" database:"CyclicalBfield_five"`
}
type FieldMutationHook struct {
Name *string `json:"name" anotherTag:"tag" database:"FieldMutationHookname"`
Enum *ExistingEnum `json:"enum" yetAnotherTag:"12" database:"FieldMutationHookenum"`
NoVal *string `json:"noVal" yaml:"noVal" repeated:"true" database:"FieldMutationHooknoVal"`
Repeated *string `json:"repeated" someTag:"value" repeated:"true" database:"FieldMutationHookrepeated"`
}
type ImplArrayOfA struct {
TrickyField []*CDImplemented `json:"trickyField" database:"ImplArrayOfAtrickyField"`
TrickyFieldPointer []*CDImplemented `json:"trickyFieldPointer" database:"ImplArrayOfAtrickyFieldPointer"`
}
func (ImplArrayOfA) IsArrayOfA() {}
func (this ImplArrayOfA) GetTrickyField() []A {
if this.TrickyField == nil {
return nil
}
interfaceSlice := make([]A, 0, len(this.TrickyField))
for _, concrete := range this.TrickyField {
interfaceSlice = append(interfaceSlice, concrete)
}
return interfaceSlice
}
func (this ImplArrayOfA) GetTrickyFieldPointer() []A {
if this.TrickyFieldPointer == nil {
return nil
}
interfaceSlice := make([]A, 0, len(this.TrickyFieldPointer))
for _, concrete := range this.TrickyFieldPointer {
interfaceSlice = append(interfaceSlice, concrete)
}
return interfaceSlice
}
type MissingInput struct {
Name *string `json:"name" database:"MissingInputname"`
Enum *MissingEnum `json:"enum" database:"MissingInputenum"`
}
type MissingTypeNotNull struct {
Name string `json:"name" database:"MissingTypeNotNullname"`
Enum MissingEnum `json:"enum" database:"MissingTypeNotNullenum"`
Int MissingInterface `json:"int" database:"MissingTypeNotNullint"`
Existing *ExistingType `json:"existing" database:"MissingTypeNotNullexisting"`
Missing2 *MissingTypeNullable `json:"missing2" database:"MissingTypeNotNullmissing2"`
}
func (MissingTypeNotNull) IsMissingInterface() {}
func (this MissingTypeNotNull) GetName() *string { return &this.Name }
func (MissingTypeNotNull) IsExistingInterface() {}
func (MissingTypeNotNull) IsMissingUnion() {}
func (MissingTypeNotNull) IsExistingUnion() {}
type MissingTypeNullable struct {
Name *string `json:"name" database:"MissingTypeNullablename"`
Enum *MissingEnum `json:"enum" database:"MissingTypeNullableenum"`
Int MissingInterface `json:"int" database:"MissingTypeNullableint"`
Existing *ExistingType `json:"existing" database:"MissingTypeNullableexisting"`
Missing2 *MissingTypeNotNull `json:"missing2" database:"MissingTypeNullablemissing2"`
}
func (MissingTypeNullable) IsMissingInterface() {}
func (this MissingTypeNullable) GetName() *string { return this.Name }
func (MissingTypeNullable) IsExistingInterface() {}
func (MissingTypeNullable) IsMissingUnion() {}
func (MissingTypeNullable) IsExistingUnion() {}
type NotCyclicalA struct {
FieldOne string `json:"FieldOne" database:"NotCyclicalAFieldOne"`
FieldTwo int `json:"FieldTwo" database:"NotCyclicalAFieldTwo"`
}
type NotCyclicalB struct {
FieldOne string `json:"FieldOne" database:"NotCyclicalBFieldOne"`
FieldTwo *NotCyclicalA `json:"FieldTwo" database:"NotCyclicalBFieldTwo"`
}
type Recursive struct {
FieldOne *Recursive `json:"FieldOne" database:"RecursiveFieldOne"`
FieldTwo *Recursive `json:"FieldTwo" database:"RecursiveFieldTwo"`
FieldThree *Recursive `json:"FieldThree" database:"RecursiveFieldThree"`
FieldFour string `json:"FieldFour" database:"RecursiveFieldFour"`
}
type RenameFieldTest struct {
GOODnaME string `json:"badName" database:"RenameFieldTestbadName"`
OtherField string `json:"otherField" database:"RenameFieldTestotherField"`
}
// TypeWithDescription is a type with a description
type TypeWithDescription struct {
Name *string `json:"name" database:"TypeWithDescriptionname"`
}
func (TypeWithDescription) IsUnionWithDescription() {}
type Xer struct {
Id string `json:"Id" database:"XerId"`
Name string `json:"Name" database:"XerName"`
}
func (Xer) IsX() {}
func (this Xer) GetId() string { return this.Id }
type FooBarr struct {
Name string `json:"name" database:"_Foo_Barrname"`
}
func (FooBarr) IsFooBarer() {}
func (this FooBarr) GetName() string { return this.Name }
// EnumWithDescription is an enum with a description
type EnumWithDescription string
const (
EnumWithDescriptionCat EnumWithDescription = "CAT"
EnumWithDescriptionDog EnumWithDescription = "DOG"
)
var AllEnumWithDescription = []EnumWithDescription{
EnumWithDescriptionCat,
EnumWithDescriptionDog,
}
func (e EnumWithDescription) IsValid() bool {
switch e {
case EnumWithDescriptionCat, EnumWithDescriptionDog:
return true
}
return false
}
func (e EnumWithDescription) String() string {
return string(e)
}
func (e *EnumWithDescription) UnmarshalGQL(v interface{}) error {
str, ok := v.(string)
if !ok {
return fmt.Errorf("enums must be strings")
}
*e = EnumWithDescription(str)
if !e.IsValid() {
return fmt.Errorf("%s is not a valid EnumWithDescription", str)
}
return nil
}
func (e EnumWithDescription) MarshalGQL(w io.Writer) {
fmt.Fprint(w, strconv.Quote(e.String()))
}
type MissingEnum string
const (
MissingEnumHello MissingEnum = "Hello"
MissingEnumGoodbye MissingEnum = "Goodbye"
)
var AllMissingEnum = []MissingEnum{
MissingEnumHello,
MissingEnumGoodbye,
}
func (e MissingEnum) IsValid() bool {
switch e {
case MissingEnumHello, MissingEnumGoodbye:
return true
}
return false
}
func (e MissingEnum) String() string {
return string(e)
}
func (e *MissingEnum) UnmarshalGQL(v interface{}) error {
str, ok := v.(string)
if !ok {
return fmt.Errorf("enums must be strings")
}
*e = MissingEnum(str)
if !e.IsValid() {
return fmt.Errorf("%s is not a valid MissingEnum", str)
}
return nil
}
func (e MissingEnum) MarshalGQL(w io.Writer) {
fmt.Fprint(w, strconv.Quote(e.String()))
}