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schema.go
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schema.go
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package graphql
import (
"fmt"
)
type SchemaConfig struct {
Query *Object
Mutation *Object
Subscription *Object
Types []Type
Directives []*Directive
}
type TypeMap map[string]Type
// Schema Definition
// A Schema is created by supplying the root types of each type of operation,
// query, mutation (optional) and subscription (optional). A schema definition is then supplied to the
// validator and executor.
// Example:
// myAppSchema, err := NewSchema(SchemaConfig({
// Query: MyAppQueryRootType,
// Mutation: MyAppMutationRootType,
// Subscription: MyAppSubscriptionRootType,
// });
// Note: If an array of `directives` are provided to GraphQLSchema, that will be
// the exact list of directives represented and allowed. If `directives` is not
// provided then a default set of the specified directives (e.g. @include and
// @skip) will be used. If you wish to provide *additional* directives to these
// specified directives, you must explicitly declare them. Example:
//
// const MyAppSchema = new GraphQLSchema({
// ...
// directives: specifiedDirectives.concat([ myCustomDirective ]),
// })
type Schema struct {
typeMap TypeMap
directives []*Directive
queryType *Object
mutationType *Object
subscriptionType *Object
implementations map[string][]*Object
possibleTypeMap map[string]map[string]bool
}
func NewSchema(config SchemaConfig) (Schema, error) {
var err error
schema := Schema{}
if err = invariant(config.Query != nil, "Schema query must be Object Type but got: nil."); err != nil {
return schema, err
}
// if schema config contains error at creation time, return those errors
if config.Query != nil && config.Query.err != nil {
return schema, config.Query.err
}
if config.Mutation != nil && config.Mutation.err != nil {
return schema, config.Mutation.err
}
schema.queryType = config.Query
schema.mutationType = config.Mutation
schema.subscriptionType = config.Subscription
// Provide specified directives (e.g. @include and @skip) by default.
schema.directives = config.Directives
if len(schema.directives) == 0 {
schema.directives = SpecifiedDirectives
}
// Ensure directive definitions are error-free
for _, dir := range schema.directives {
if dir.err != nil {
return schema, dir.err
}
}
// Build type map now to detect any errors within this schema.
typeMap := TypeMap{}
initialTypes := []Type{}
if schema.QueryType() != nil {
initialTypes = append(initialTypes, schema.QueryType())
}
if schema.MutationType() != nil {
initialTypes = append(initialTypes, schema.MutationType())
}
if schema.SubscriptionType() != nil {
initialTypes = append(initialTypes, schema.SubscriptionType())
}
if SchemaType != nil {
initialTypes = append(initialTypes, SchemaType)
}
for _, ttype := range config.Types {
// assume that user will never add a nil object to config
initialTypes = append(initialTypes, ttype)
}
for _, ttype := range initialTypes {
if ttype.Error() != nil {
return schema, ttype.Error()
}
if typeMap, err = typeMapReducer(&schema, typeMap, ttype); err != nil {
return schema, err
}
}
schema.typeMap = typeMap
// Keep track of all implementations by interface name.
if schema.implementations == nil {
schema.implementations = map[string][]*Object{}
}
for _, ttype := range schema.typeMap {
if ttype, ok := ttype.(*Object); ok {
for _, iface := range ttype.Interfaces() {
impls, ok := schema.implementations[iface.Name()]
if impls == nil || !ok {
impls = []*Object{}
}
impls = append(impls, ttype)
schema.implementations[iface.Name()] = impls
}
}
}
// Enforce correct interface implementations
for _, ttype := range schema.typeMap {
if ttype, ok := ttype.(*Object); ok {
for _, iface := range ttype.Interfaces() {
err := assertObjectImplementsInterface(&schema, ttype, iface)
if err != nil {
return schema, err
}
}
}
}
return schema, nil
}
//Added Check implementation of interfaces at runtime..
//Add Implementations at Runtime..
func (gq *Schema) AddImplementation() error {
// Keep track of all implementations by interface name.
if gq.implementations == nil {
gq.implementations = map[string][]*Object{}
}
for _, ttype := range gq.typeMap {
if ttype, ok := ttype.(*Object); ok {
for _, iface := range ttype.Interfaces() {
impls, ok := gq.implementations[iface.Name()]
if impls == nil || !ok {
impls = []*Object{}
}
impls = append(impls, ttype)
gq.implementations[iface.Name()] = impls
}
}
}
// Enforce correct interface implementations
for _, ttype := range gq.typeMap {
if ttype, ok := ttype.(*Object); ok {
for _, iface := range ttype.Interfaces() {
err := assertObjectImplementsInterface(gq, ttype, iface)
if err != nil {
return err
}
}
}
}
return nil
}
//Edited. To check add Types at RunTime..
//Append Runtime schema to typeMap
func (gq *Schema) AppendType(objectType Type) error {
if objectType.Error() != nil {
return objectType.Error()
}
var err error
gq.typeMap, err = typeMapReducer(gq, gq.typeMap, objectType)
if err != nil {
return err
}
//Now Add interface implementation..
return gq.AddImplementation()
}
func (gq *Schema) QueryType() *Object {
return gq.queryType
}
func (gq *Schema) MutationType() *Object {
return gq.mutationType
}
func (gq *Schema) SubscriptionType() *Object {
return gq.subscriptionType
}
func (gq *Schema) Directives() []*Directive {
return gq.directives
}
func (gq *Schema) Directive(name string) *Directive {
for _, directive := range gq.Directives() {
if directive.Name == name {
return directive
}
}
return nil
}
func (gq *Schema) TypeMap() TypeMap {
return gq.typeMap
}
func (gq *Schema) Type(name string) Type {
return gq.TypeMap()[name]
}
func (gq *Schema) PossibleTypes(abstractType Abstract) []*Object {
switch abstractType := abstractType.(type) {
case *Union:
return abstractType.Types()
case *Interface:
if impls, ok := gq.implementations[abstractType.Name()]; ok {
return impls
}
}
return []*Object{}
}
func (gq *Schema) IsPossibleType(abstractType Abstract, possibleType *Object) bool {
possibleTypeMap := gq.possibleTypeMap
if possibleTypeMap == nil {
possibleTypeMap = map[string]map[string]bool{}
}
if typeMap, ok := possibleTypeMap[abstractType.Name()]; !ok {
typeMap = map[string]bool{}
for _, possibleType := range gq.PossibleTypes(abstractType) {
typeMap[possibleType.Name()] = true
}
possibleTypeMap[abstractType.Name()] = typeMap
}
gq.possibleTypeMap = possibleTypeMap
if typeMap, ok := possibleTypeMap[abstractType.Name()]; ok {
isPossible, _ := typeMap[possibleType.Name()]
return isPossible
}
return false
}
// map-reduce
func typeMapReducer(schema *Schema, typeMap TypeMap, objectType Type) (TypeMap, error) {
var err error
if objectType == nil || objectType.Name() == "" {
return typeMap, nil
}
// first:
switch objectType := objectType.(type) {
case *List:
if objectType.OfType != nil {
return typeMapReducer(schema, typeMap, objectType.OfType)
}
case *NonNull:
if objectType.OfType != nil {
return typeMapReducer(schema, typeMap, objectType.OfType)
}
case *Object:
if objectType.err != nil {
return typeMap, objectType.err
}
}
if mappedObjectType, ok := typeMap[objectType.Name()]; ok {
err = invariantf(
mappedObjectType == objectType,
`Schema must contain unique named types but contains multiple types named "%v".`, objectType.Name())
return typeMap, err
}
typeMap[objectType.Name()] = objectType
// second:
switch objectType := objectType.(type) {
case *Union, *Interface:
types := schema.PossibleTypes(objectType)
if objectType.Error() != nil {
return typeMap, objectType.Error()
}
for _, innerObjectType := range types {
if innerObjectType.err != nil {
return typeMap, innerObjectType.err
}
if typeMap, err = typeMapReducer(schema, typeMap, innerObjectType); err != nil {
return typeMap, err
}
}
case *Object:
interfaces := objectType.Interfaces()
if objectType.err != nil {
return typeMap, objectType.err
}
for _, innerObjectType := range interfaces {
if innerObjectType.err != nil {
return typeMap, innerObjectType.err
}
if typeMap, err = typeMapReducer(schema, typeMap, innerObjectType); err != nil {
return typeMap, err
}
}
}
switch objectType := objectType.(type) {
case *Object:
fieldMap := objectType.Fields()
if objectType.err != nil {
return typeMap, objectType.err
}
for _, field := range fieldMap {
for _, arg := range field.Args {
typeMap, err = typeMapReducer(schema, typeMap, arg.Type)
if err != nil {
return typeMap, err
}
}
typeMap, err = typeMapReducer(schema, typeMap, field.Type)
if err != nil {
return typeMap, err
}
}
case *Interface:
fieldMap := objectType.Fields()
if objectType.err != nil {
return typeMap, objectType.err
}
for _, field := range fieldMap {
for _, arg := range field.Args {
typeMap, err = typeMapReducer(schema, typeMap, arg.Type)
if err != nil {
return typeMap, err
}
}
typeMap, err = typeMapReducer(schema, typeMap, field.Type)
if err != nil {
return typeMap, err
}
}
case *InputObject:
fieldMap := objectType.Fields()
if objectType.err != nil {
return typeMap, objectType.err
}
for _, field := range fieldMap {
typeMap, err = typeMapReducer(schema, typeMap, field.Type)
if err != nil {
return typeMap, err
}
}
}
return typeMap, nil
}
func assertObjectImplementsInterface(schema *Schema, object *Object, iface *Interface) error {
objectFieldMap := object.Fields()
ifaceFieldMap := iface.Fields()
// Assert each interface field is implemented.
for fieldName := range ifaceFieldMap {
objectField := objectFieldMap[fieldName]
ifaceField := ifaceFieldMap[fieldName]
// Assert interface field exists on object.
err := invariantf(
objectField != nil,
`"%v" expects field "%v" but "%v" does not `+
`provide it.`, iface, fieldName, object)
if err != nil {
return err
}
// Assert interface field type is satisfied by object field type, by being
// a valid subtype. (covariant)
err = invariant(
isTypeSubTypeOf(schema, objectField.Type, ifaceField.Type),
fmt.Sprintf(`%v.%v expects type "%v" but `+
`%v.%v provides type "%v".`,
iface, fieldName, ifaceField.Type,
object, fieldName, objectField.Type),
)
if err != nil {
return err
}
// Assert each interface field arg is implemented.
for _, ifaceArg := range ifaceField.Args {
argName := ifaceArg.PrivateName
var objectArg *Argument
for _, arg := range objectField.Args {
if arg.PrivateName == argName {
objectArg = arg
break
}
}
// Assert interface field arg exists on object field.
err = invariant(
objectArg != nil,
fmt.Sprintf(`%v.%v expects argument "%v" but `+
`%v.%v does not provide it.`,
iface, fieldName, argName,
object, fieldName),
)
if err != nil {
return err
}
// Assert interface field arg type matches object field arg type.
// (invariant)
err = invariant(
isEqualType(ifaceArg.Type, objectArg.Type),
fmt.Sprintf(
`%v.%v(%v:) expects type "%v" `+
`but %v.%v(%v:) provides `+
`type "%v".`,
iface, fieldName, argName, ifaceArg.Type,
object, fieldName, argName, objectArg.Type),
)
if err != nil {
return err
}
}
// Assert additional arguments must not be required.
for _, objectArg := range objectField.Args {
argName := objectArg.PrivateName
var ifaceArg *Argument
for _, arg := range ifaceField.Args {
if arg.PrivateName == argName {
ifaceArg = arg
break
}
}
if ifaceArg == nil {
_, ok := objectArg.Type.(*NonNull)
err = invariant(
!ok,
fmt.Sprintf(`%v.%v(%v:) is of required type `+
`"%v" but is not also provided by the interface %v.%v.`,
object, fieldName, argName,
objectArg.Type, iface, fieldName),
)
if err != nil {
return err
}
}
}
}
return nil
}
func isEqualType(typeA Type, typeB Type) bool {
// Equivalent type is a valid subtype
if typeA == typeB {
return true
}
// If either type is non-null, the other must also be non-null.
if typeA, ok := typeA.(*NonNull); ok {
if typeB, ok := typeB.(*NonNull); ok {
return isEqualType(typeA.OfType, typeB.OfType)
}
}
// If either type is a list, the other must also be a list.
if typeA, ok := typeA.(*List); ok {
if typeB, ok := typeB.(*List); ok {
return isEqualType(typeA.OfType, typeB.OfType)
}
}
// Otherwise the types are not equal.
return false
}
// isTypeSubTypeOf Provided a type and a super type, return true if the first type is either
// equal or a subset of the second super type (covariant).
func isTypeSubTypeOf(schema *Schema, maybeSubType Type, superType Type) bool {
// Equivalent type is a valid subtype
if maybeSubType == superType {
return true
}
// If superType is non-null, maybeSubType must also be nullable.
if superType, ok := superType.(*NonNull); ok {
if maybeSubType, ok := maybeSubType.(*NonNull); ok {
return isTypeSubTypeOf(schema, maybeSubType.OfType, superType.OfType)
}
return false
}
if maybeSubType, ok := maybeSubType.(*NonNull); ok {
// If superType is nullable, maybeSubType may be non-null.
return isTypeSubTypeOf(schema, maybeSubType.OfType, superType)
}
// If superType type is a list, maybeSubType type must also be a list.
if superType, ok := superType.(*List); ok {
if maybeSubType, ok := maybeSubType.(*List); ok {
return isTypeSubTypeOf(schema, maybeSubType.OfType, superType.OfType)
}
return false
} else if _, ok := maybeSubType.(*List); ok {
// If superType is not a list, maybeSubType must also be not a list.
return false
}
// If superType type is an abstract type, maybeSubType type may be a currently
// possible object type.
if superType, ok := superType.(*Interface); ok {
if maybeSubType, ok := maybeSubType.(*Object); ok && schema.IsPossibleType(superType, maybeSubType) {
return true
}
}
if superType, ok := superType.(*Union); ok {
if maybeSubType, ok := maybeSubType.(*Object); ok && schema.IsPossibleType(superType, maybeSubType) {
return true
}
}
// Otherwise, the child type is not a valid subtype of the parent type.
return false
}