go-ethereum/vendor/github.com/graph-gophers/graphql-go/internal/exec/selected/selected.go

239 lines
5.8 KiB
Go

package selected
import (
"fmt"
"reflect"
"sync"
"github.com/graph-gophers/graphql-go/errors"
"github.com/graph-gophers/graphql-go/internal/common"
"github.com/graph-gophers/graphql-go/internal/exec/packer"
"github.com/graph-gophers/graphql-go/internal/exec/resolvable"
"github.com/graph-gophers/graphql-go/internal/query"
"github.com/graph-gophers/graphql-go/internal/schema"
"github.com/graph-gophers/graphql-go/introspection"
)
type Request struct {
Schema *schema.Schema
Doc *query.Document
Vars map[string]interface{}
Mu sync.Mutex
Errs []*errors.QueryError
}
func (r *Request) AddError(err *errors.QueryError) {
r.Mu.Lock()
r.Errs = append(r.Errs, err)
r.Mu.Unlock()
}
func ApplyOperation(r *Request, s *resolvable.Schema, op *query.Operation) []Selection {
var obj *resolvable.Object
switch op.Type {
case query.Query:
obj = s.Query.(*resolvable.Object)
case query.Mutation:
obj = s.Mutation.(*resolvable.Object)
}
return applySelectionSet(r, obj, op.Selections)
}
type Selection interface {
isSelection()
}
type SchemaField struct {
resolvable.Field
Alias string
Args map[string]interface{}
PackedArgs reflect.Value
Sels []Selection
Async bool
FixedResult reflect.Value
}
type TypeAssertion struct {
resolvable.TypeAssertion
Sels []Selection
}
type TypenameField struct {
resolvable.Object
Alias string
}
func (*SchemaField) isSelection() {}
func (*TypeAssertion) isSelection() {}
func (*TypenameField) isSelection() {}
func applySelectionSet(r *Request, e *resolvable.Object, sels []query.Selection) (flattenedSels []Selection) {
for _, sel := range sels {
switch sel := sel.(type) {
case *query.Field:
field := sel
if skipByDirective(r, field.Directives) {
continue
}
switch field.Name.Name {
case "__typename":
flattenedSels = append(flattenedSels, &TypenameField{
Object: *e,
Alias: field.Alias.Name,
})
case "__schema":
flattenedSels = append(flattenedSels, &SchemaField{
Field: resolvable.MetaFieldSchema,
Alias: field.Alias.Name,
Sels: applySelectionSet(r, resolvable.MetaSchema, field.Selections),
Async: true,
FixedResult: reflect.ValueOf(introspection.WrapSchema(r.Schema)),
})
case "__type":
p := packer.ValuePacker{ValueType: reflect.TypeOf("")}
v, err := p.Pack(field.Arguments.MustGet("name").Value(r.Vars))
if err != nil {
r.AddError(errors.Errorf("%s", err))
return nil
}
t, ok := r.Schema.Types[v.String()]
if !ok {
return nil
}
flattenedSels = append(flattenedSels, &SchemaField{
Field: resolvable.MetaFieldType,
Alias: field.Alias.Name,
Sels: applySelectionSet(r, resolvable.MetaType, field.Selections),
Async: true,
FixedResult: reflect.ValueOf(introspection.WrapType(t)),
})
default:
fe := e.Fields[field.Name.Name]
var args map[string]interface{}
var packedArgs reflect.Value
if fe.ArgsPacker != nil {
args = make(map[string]interface{})
for _, arg := range field.Arguments {
args[arg.Name.Name] = arg.Value.Value(r.Vars)
}
var err error
packedArgs, err = fe.ArgsPacker.Pack(args)
if err != nil {
r.AddError(errors.Errorf("%s", err))
return
}
}
fieldSels := applyField(r, fe.ValueExec, field.Selections)
flattenedSels = append(flattenedSels, &SchemaField{
Field: *fe,
Alias: field.Alias.Name,
Args: args,
PackedArgs: packedArgs,
Sels: fieldSels,
Async: fe.HasContext || fe.ArgsPacker != nil || fe.HasError || HasAsyncSel(fieldSels),
})
}
case *query.InlineFragment:
frag := sel
if skipByDirective(r, frag.Directives) {
continue
}
flattenedSels = append(flattenedSels, applyFragment(r, e, &frag.Fragment)...)
case *query.FragmentSpread:
spread := sel
if skipByDirective(r, spread.Directives) {
continue
}
flattenedSels = append(flattenedSels, applyFragment(r, e, &r.Doc.Fragments.Get(spread.Name.Name).Fragment)...)
default:
panic("invalid type")
}
}
return
}
func applyFragment(r *Request, e *resolvable.Object, frag *query.Fragment) []Selection {
if frag.On.Name != "" && frag.On.Name != e.Name {
a, ok := e.TypeAssertions[frag.On.Name]
if !ok {
panic(fmt.Errorf("%q does not implement %q", frag.On, e.Name)) // TODO proper error handling
}
return []Selection{&TypeAssertion{
TypeAssertion: *a,
Sels: applySelectionSet(r, a.TypeExec.(*resolvable.Object), frag.Selections),
}}
}
return applySelectionSet(r, e, frag.Selections)
}
func applyField(r *Request, e resolvable.Resolvable, sels []query.Selection) []Selection {
switch e := e.(type) {
case *resolvable.Object:
return applySelectionSet(r, e, sels)
case *resolvable.List:
return applyField(r, e.Elem, sels)
case *resolvable.Scalar:
return nil
default:
panic("unreachable")
}
}
func skipByDirective(r *Request, directives common.DirectiveList) bool {
if d := directives.Get("skip"); d != nil {
p := packer.ValuePacker{ValueType: reflect.TypeOf(false)}
v, err := p.Pack(d.Args.MustGet("if").Value(r.Vars))
if err != nil {
r.AddError(errors.Errorf("%s", err))
}
if err == nil && v.Bool() {
return true
}
}
if d := directives.Get("include"); d != nil {
p := packer.ValuePacker{ValueType: reflect.TypeOf(false)}
v, err := p.Pack(d.Args.MustGet("if").Value(r.Vars))
if err != nil {
r.AddError(errors.Errorf("%s", err))
}
if err == nil && !v.Bool() {
return true
}
}
return false
}
func HasAsyncSel(sels []Selection) bool {
for _, sel := range sels {
switch sel := sel.(type) {
case *SchemaField:
if sel.Async {
return true
}
case *TypeAssertion:
if HasAsyncSel(sel.Sels) {
return true
}
case *TypenameField:
// sync
default:
panic("unreachable")
}
}
return false
}