package config
import (
"fmt"
"go/token"
"go/types"
"github.com/99designs/gqlgen/codegen/templates"
"github.com/99designs/gqlgen/internal/code"
"github.com/pkg/errors"
"github.com/vektah/gqlparser/ast"
"golang.org/x/tools/go/packages"
)
// Binder connects graphql types to golang types using static analysis
type Binder struct {
pkgs []*packages.Package
schema *ast.Schema
cfg *Config
References []*TypeReference
}
func (c *Config) NewBinder(s *ast.Schema) (*Binder, error) {
pkgs, err := packages.Load(&packages.Config{Mode: packages.LoadTypes | packages.LoadSyntax}, c.Models.ReferencedPackages()...)
if err != nil {
return nil, err
}
for _, p := range pkgs {
for _, e := range p.Errors {
if e.Kind == packages.ListError {
return nil, p.Errors[0]
}
}
}
return &Binder{
pkgs: pkgs,
schema: s,
cfg: c,
}, nil
}
func (b *Binder) TypePosition(typ types.Type) token.Position {
named, isNamed := typ.(*types.Named)
if !isNamed {
return token.Position{
Filename: "unknown",
}
}
return b.ObjectPosition(named.Obj())
}
func (b *Binder) ObjectPosition(typ types.Object) token.Position {
if typ == nil {
return token.Position{
Filename: "unknown",
}
}
pkg := b.getPkg(typ.Pkg().Path())
return pkg.Fset.Position(typ.Pos())
}
func (b *Binder) FindType(pkgName string, typeName string) (types.Type, error) {
obj, err := b.FindObject(pkgName, typeName)
if err != nil {
return nil, err
}
if fun, isFunc := obj.(*types.Func); isFunc {
return fun.Type().(*types.Signature).Params().At(0).Type(), nil
}
return obj.Type(), nil
}
func (b *Binder) getPkg(find string) *packages.Package {
for _, p := range b.pkgs {
if code.NormalizeVendor(find) == code.NormalizeVendor(p.PkgPath) {
return p
}
}
return nil
}
var MapType = types.NewMap(types.Typ[types.String], types.NewInterfaceType(nil, nil).Complete())
var InterfaceType = types.NewInterfaceType(nil, nil)
func (b *Binder) DefaultUserObject(name string) (types.Type, error) {
models := b.cfg.Models[name].Model
if len(models) == 0 {
return nil, fmt.Errorf(name + " not found in typemap")
}
if models[0] == "map[string]interface{}" {
return MapType, nil
}
if models[0] == "interface{}" {
return InterfaceType, nil
}
pkgName, typeName := code.PkgAndType(models[0])
if pkgName == "" {
return nil, fmt.Errorf("missing package name for %s", name)
}
obj, err := b.FindObject(pkgName, typeName)
if err != nil {
return nil, err
}
return obj.Type(), nil
}
func (b *Binder) FindObject(pkgName string, typeName string) (types.Object, error) {
if pkgName == "" {
return nil, fmt.Errorf("package cannot be nil")
}
fullName := typeName
if pkgName != "" {
fullName = pkgName + "." + typeName
}
pkg := b.getPkg(pkgName)
if pkg == nil {
return nil, errors.Errorf("required package was not loaded: %s", fullName)
}
// function based marshalers take precedence
for astNode, def := range pkg.TypesInfo.Defs {
// only look at defs in the top scope
if def == nil || def.Parent() == nil || def.Parent() != pkg.Types.Scope() {
continue
}
if astNode.Name == "Marshal"+typeName {
return def, nil
}
}
// then look for types directly
for astNode, def := range pkg.TypesInfo.Defs {
// only look at defs in the top scope
if def == nil || def.Parent() == nil || def.Parent() != pkg.Types.Scope() {
continue
}
if astNode.Name == typeName {
return def, nil
}
}
return nil, errors.Errorf("unable to find type %s\n", fullName)
}
func (b *Binder) PointerTo(ref *TypeReference) *TypeReference {
newRef := &TypeReference{
GO: types.NewPointer(ref.GO),
GQL: ref.GQL,
CastType: ref.CastType,
Definition: ref.Definition,
Unmarshaler: ref.Unmarshaler,
Marshaler: ref.Marshaler,
IsMarshaler: ref.IsMarshaler,
}
b.References = append(b.References, newRef)
return newRef
}
// TypeReference is used by args and field types. The Definition can refer to both input and output types.
type TypeReference struct {
Definition *ast.Definition
GQL *ast.Type
GO types.Type
CastType types.Type // Before calling marshalling functions cast from/to this base type
Marshaler *types.Func // When using external marshalling functions this will point to the Marshal function
Unmarshaler *types.Func // When using external marshalling functions this will point to the Unmarshal function
IsMarshaler bool // Does the type implement graphql.Marshaler and graphql.Unmarshaler
}
func (ref *TypeReference) Elem() *TypeReference {
if p, isPtr := ref.GO.(*types.Pointer); isPtr {
return &TypeReference{
GO: p.Elem(),
GQL: ref.GQL,
CastType: ref.CastType,
Definition: ref.Definition,
Unmarshaler: ref.Unmarshaler,
Marshaler: ref.Marshaler,
IsMarshaler: ref.IsMarshaler,
}
}
if ref.IsSlice() {
return &TypeReference{
GO: ref.GO.(*types.Slice).Elem(),
GQL: ref.GQL.Elem,
CastType: ref.CastType,
Definition: ref.Definition,
Unmarshaler: ref.Unmarshaler,
Marshaler: ref.Marshaler,
IsMarshaler: ref.IsMarshaler,
}
}
return nil
}
func (t *TypeReference) IsPtr() bool {
_, isPtr := t.GO.(*types.Pointer)
return isPtr
}
func (t *TypeReference) IsNilable() bool {
_, isPtr := t.GO.(*types.Pointer)
_, isMap := t.GO.(*types.Map)
_, isInterface := t.GO.(*types.Interface)
return isPtr || isMap || isInterface
}
func (t *TypeReference) IsSlice() bool {
_, isSlice := t.GO.(*types.Slice)
return t.GQL.Elem != nil && isSlice
}
func (t *TypeReference) IsNamed() bool {
_, isSlice := t.GO.(*types.Named)
return isSlice
}
func (t *TypeReference) IsStruct() bool {
_, isStruct := t.GO.Underlying().(*types.Struct)
return isStruct
}
func (t *TypeReference) IsScalar() bool {
return t.Definition.Kind == ast.Scalar
}
func (t *TypeReference) UniquenessKey() string {
var nullability = "O"
if t.GQL.NonNull {
nullability = "N"
}
return nullability + t.Definition.Name + "2" + templates.TypeIdentifier(t.GO)
}
func (t *TypeReference) MarshalFunc() string {
if t.Definition == nil {
panic(errors.New("Definition missing for " + t.GQL.Name()))
}
if t.Definition.Kind == ast.InputObject {
return ""
}
return "marshal" + t.UniquenessKey()
}
func (t *TypeReference) UnmarshalFunc() string {
if t.Definition == nil {
panic(errors.New("Definition missing for " + t.GQL.Name()))
}
if !t.Definition.IsInputType() {
return ""
}
return "unmarshal" + t.UniquenessKey()
}
func (b *Binder) PushRef(ret *TypeReference) {
b.References = append(b.References, ret)
}
func isMap(t types.Type) bool {
if t == nil {
return true
}
_, ok := t.(*types.Map)
return ok
}
func isIntf(t types.Type) bool {
if t == nil {
return true
}
_, ok := t.(*types.Interface)
return ok
}
func (b *Binder) TypeReference(schemaType *ast.Type, bindTarget types.Type) (ret *TypeReference, err error) {
var pkgName, typeName string
def := b.schema.Types[schemaType.Name()]
defer func() {
if err == nil && ret != nil {
b.PushRef(ret)
}
}()
if len(b.cfg.Models[schemaType.Name()].Model) == 0 {
return nil, fmt.Errorf("%s was not found", schemaType.Name())
}
for _, model := range b.cfg.Models[schemaType.Name()].Model {
if model == "map[string]interface{}" {
if !isMap(bindTarget) {
continue
}
return &TypeReference{
Definition: def,
GQL: schemaType,
GO: MapType,
}, nil
}
if model == "interface{}" {
if !isIntf(bindTarget) {
continue
}
return &TypeReference{
Definition: def,
GQL: schemaType,
GO: InterfaceType,
}, nil
}
pkgName, typeName = code.PkgAndType(model)
if pkgName == "" {
return nil, fmt.Errorf("missing package name for %s", schemaType.Name())
}
ref := &TypeReference{
Definition: def,
GQL: schemaType,
}
obj, err := b.FindObject(pkgName, typeName)
if err != nil {
return nil, err
}
if fun, isFunc := obj.(*types.Func); isFunc {
ref.GO = fun.Type().(*types.Signature).Params().At(0).Type()
ref.Marshaler = fun
ref.Unmarshaler = types.NewFunc(0, fun.Pkg(), "Unmarshal"+typeName, nil)
} else if hasMethod(obj.Type(), "MarshalGQL") && hasMethod(obj.Type(), "UnmarshalGQL") {
ref.GO = obj.Type()
ref.IsMarshaler = true
} else if underlying := basicUnderlying(obj.Type()); def.IsLeafType() && underlying != nil && underlying.Kind() == types.String {
// Special case for named types wrapping strings. Used by default enum implementations.
ref.GO = obj.Type()
ref.CastType = underlying
underlyingRef, err := b.TypeReference(&ast.Type{NamedType: "String"}, nil)
if err != nil {
return nil, err
}
ref.Marshaler = underlyingRef.Marshaler
ref.Unmarshaler = underlyingRef.Unmarshaler
} else {
ref.GO = obj.Type()
}
ref.GO = b.CopyModifiersFromAst(schemaType, ref.GO)
if bindTarget != nil {
if err = code.CompatibleTypes(ref.GO, bindTarget); err != nil {
continue
}
ref.GO = bindTarget
}
return ref, nil
}
return nil, fmt.Errorf("%s has type compatible with %s", schemaType.Name(), bindTarget.String())
}
func (b *Binder) CopyModifiersFromAst(t *ast.Type, base types.Type) types.Type {
if t.Elem != nil {
child := b.CopyModifiersFromAst(t.Elem, base)
if _, isStruct := child.Underlying().(*types.Struct); isStruct {
child = types.NewPointer(child)
}
return types.NewSlice(child)
}
var isInterface bool
if named, ok := base.(*types.Named); ok {
_, isInterface = named.Underlying().(*types.Interface)
}
if !isInterface && !t.NonNull {
return types.NewPointer(base)
}
return base
}
func hasMethod(it types.Type, name string) bool {
if ptr, isPtr := it.(*types.Pointer); isPtr {
it = ptr.Elem()
}
namedType, ok := it.(*types.Named)
if !ok {
return false
}
for i := 0; i < namedType.NumMethods(); i++ {
if namedType.Method(i).Name() == name {
return true
}
}
return false
}
func basicUnderlying(it types.Type) *types.Basic {
if ptr, isPtr := it.(*types.Pointer); isPtr {
it = ptr.Elem()
}
namedType, ok := it.(*types.Named)
if !ok {
return nil
}
if basic, ok := namedType.Underlying().(*types.Basic); ok {
return basic
}
return nil
}
