trait AutoSchemaDerivation[R] extends GenericSchema[R] with LowPriorityDerivedSchema
- Alphabetic
- By Inheritance
- AutoSchemaDerivation
- LowPriorityDerivedSchema
- GenericSchema
- TemporalSchema
- SchemaDerivation
- CommonSchemaDerivation
- AnyRef
- Any
- Hide All
- Show All
- Public
- Protected
Type Members
- type Typeclass[T] = Schema[R, T]
- Definition Classes
- CommonSchemaDerivation
Value Members
- final def !=(arg0: Any): Boolean
- Definition Classes
- AnyRef → Any
- final def ##: Int
- Definition Classes
- AnyRef → Any
- final def ==(arg0: Any): Boolean
- Definition Classes
- AnyRef → Any
- final def asInstanceOf[T0]: T0
- Definition Classes
- Any
- implicit val base64CursorSchema: Schema[Any, Base64Cursor]
- Definition Classes
- GenericSchema
- implicit val bigDecimalSchema: Schema[Any, BigDecimal]
- Definition Classes
- GenericSchema
- implicit val bigIntSchema: Schema[Any, BigInt]
- Definition Classes
- GenericSchema
- implicit val booleanSchema: Schema[Any, Boolean]
- Definition Classes
- GenericSchema
- implicit def chunkSchema[R0, A](implicit ev: Schema[R0, A]): Schema[R0, Chunk[A]]
- Definition Classes
- GenericSchema
- def clone(): AnyRef
- Attributes
- protected[lang]
- Definition Classes
- AnyRef
- Annotations
- @throws(classOf[java.lang.CloneNotSupportedException]) @native() @HotSpotIntrinsicCandidate()
- def combine[T](ctx: ReadOnlyCaseClass[Typeclass, T]): Typeclass[T]
- Definition Classes
- CommonSchemaDerivation
- def customErrorEffectSchema[R0, R1 >: R0, R2 >: R0, E, A](convertError: (E) => ExecutionError)(implicit ev: Schema[R2, A]): Schema[R0, ZIO[R1, E, A]]
- Definition Classes
- GenericSchema
- def customErrorQuerySchema[R0, R1 >: R0, R2 >: R0, E, A](convertError: (E) => ExecutionError)(implicit ev: Schema[R2, A]): Schema[R0, ZQuery[R1, E, A]]
- Definition Classes
- GenericSchema
- def customErrorStreamSchema[R0, R1 >: R0, R2 >: R0, E, A](convertError: (E) => ExecutionError)(implicit ev: Schema[R2, A]): Schema[R0, ZStream[R1, E, A]]
- Definition Classes
- GenericSchema
- def customizeInputTypeName(name: String): String
Default naming logic for input types.
Default naming logic for input types. This is needed to avoid a name clash between a type used as an input and the same type used as an output. GraphQL needs 2 different types, and they can't have the same name. By default, the "Input" suffix is added after the type name, given that it is not already present.
- Definition Classes
- CommonSchemaDerivation
- implicit def derivedSchema[R, T](implicit derived: Derived[Schema[R, T]]): Schema[R, T]
- Definition Classes
- LowPriorityDerivedSchema
- def dispatch[T](ctx: SealedTrait[Typeclass, T]): Typeclass[T]
- Definition Classes
- CommonSchemaDerivation
- implicit val doubleSchema: Schema[Any, Double]
- Definition Classes
- GenericSchema
- implicit def effectSchema[R0, R1 >: R0, R2 >: R0, E <: Throwable, A](implicit ev: Schema[R2, A]): Schema[R0, ZIO[R1, E, A]]
- Definition Classes
- GenericSchema
- implicit def eitherSchema[RA, RB, A, B](implicit evA: Schema[RA, A], evB: Schema[RB, B]): Schema[RA with RB, Either[A, B]]
- Definition Classes
- GenericSchema
- final def eq(arg0: AnyRef): Boolean
- Definition Classes
- AnyRef
- def equals(arg0: AnyRef): Boolean
- Definition Classes
- AnyRef → Any
- def field[V](name: String, description: Option[String] = None, directives: List[Directive] = List.empty): PartiallyAppliedField[V]
Manually defines a field from a name, a description, some directives and a resolver.
Manually defines a field from a name, a description, some directives and a resolver. If the field is a function that should be called lazily, use
fieldLazy
instead. If the field takes arguments, usefieldWithArgs
instead.- Definition Classes
- GenericSchema
- def fieldLazy[V](name: String, description: Option[String] = None, directives: List[Directive] = List.empty): PartiallyAppliedFieldLazy[V]
Manually defines a lazy field from a name, a description, some directives and a resolver.
Manually defines a lazy field from a name, a description, some directives and a resolver.
- Definition Classes
- GenericSchema
- def fieldWithArgs[V, A](name: String, description: Option[String] = None, directives: List[Directive] = Nil): PartiallyAppliedFieldWithArgs[V, A]
Manually defines a field with arguments from a name, a description, some directives and a resolver.
Manually defines a field with arguments from a name, a description, some directives and a resolver.
- Definition Classes
- GenericSchema
- implicit val floatSchema: Schema[Any, Float]
- Definition Classes
- GenericSchema
- implicit def functionSchema[RA, RB, A, B](implicit arg1: ArgBuilder[A], ev1: Schema[RA, A], ev2: Schema[RB, B]): Schema[RB, (A) => B]
- Definition Classes
- GenericSchema
- implicit def functionUnitSchema[R0, A](implicit ev: Schema[R0, A]): Schema[R0, () => A]
- Definition Classes
- GenericSchema
- implicit def futureSchema[R0, A](implicit ev: Schema[R0, A]): Schema[R0, Future[A]]
- Definition Classes
- GenericSchema
- macro def gen[R0, T]: Typeclass[T]
Returns an instance of
Schema
for the given type T.Returns an instance of
Schema
for the given type T. This method requires aSchema
for all types nested inside T. It should be used only if T is a case class or a sealed trait.- Definition Classes
- SchemaDerivation
- def genAll[R0, T](implicit derived: Derived[Schema[R0, T]]): Schema[R0, T]
Returns an instance of
Schema
for the given type T.Returns an instance of
Schema
for the given type T. This method will automatically generate missingSchema
for all types nested inside T that are case classes or sealed traits. - implicit macro def genMacro[T]: Derived[Typeclass[T]]
- final def getClass(): Class[_ <: AnyRef]
- Definition Classes
- AnyRef → Any
- Annotations
- @native() @HotSpotIntrinsicCandidate()
- def hashCode(): Int
- Definition Classes
- AnyRef → Any
- Annotations
- @native() @HotSpotIntrinsicCandidate()
- implicit def infallibleEffectSchema[R0, R1 >: R0, R2 >: R0, A](implicit ev: Schema[R2, A]): Schema[R0, URIO[R1, A]]
- Definition Classes
- GenericSchema
- implicit def infallibleQuerySchema[R0, R1 >: R0, R2 >: R0, A](implicit ev: Schema[R2, A]): Schema[R0, ZQuery[R1, Nothing, A]]
- Definition Classes
- GenericSchema
- implicit def infallibleStreamSchema[R1, R2 >: R1, A](implicit ev: Schema[R2, A]): Schema[R1, ZStream[R1, Nothing, A]]
- Definition Classes
- GenericSchema
- lazy val instantEpochSchema: Schema[Any, Instant]
- Definition Classes
- TemporalSchema
- implicit lazy val instantSchema: Schema[Any, Instant]
- Definition Classes
- TemporalSchema
- implicit val intSchema: Schema[Any, Int]
- Definition Classes
- GenericSchema
- final def isInstanceOf[T0]: Boolean
- Definition Classes
- Any
- def isScalarValueType[T](ctx: ReadOnlyCaseClass[Typeclass, T]): Boolean
- Definition Classes
- CommonSchemaDerivation
- def isValueType[T](ctx: ReadOnlyCaseClass[Typeclass, T]): Boolean
- Definition Classes
- CommonSchemaDerivation
- implicit def listSchema[R0, A](implicit ev: Schema[R0, A]): Schema[R0, List[A]]
- Definition Classes
- GenericSchema
- val localDateEpochSchema: Schema[Any, LocalDate]
- Definition Classes
- TemporalSchema
- implicit lazy val localDateSchema: Schema[Any, LocalDate]
- Definition Classes
- TemporalSchema
- def localDateSchemaWithFormatter(formatter: DateTimeFormatter): Schema[Any, LocalDate]
- Definition Classes
- TemporalSchema
- val localDateTimeEpochSchema: Schema[Any, LocalDateTime]
- Definition Classes
- TemporalSchema
- implicit lazy val localDateTimeSchema: Schema[Any, LocalDateTime]
- Definition Classes
- TemporalSchema
- def localDateTimeSchemaWithFormatter(formatter: DateTimeFormatter): Schema[Any, LocalDateTime]
- Definition Classes
- TemporalSchema
- implicit lazy val localTimeSchema: Schema[Any, LocalTime]
- Definition Classes
- TemporalSchema
- def localTimeSchemaWithFormatter(formatter: DateTimeFormatter): Schema[Any, LocalTime]
- Definition Classes
- TemporalSchema
- implicit val longSchema: Schema[Any, Long]
- Definition Classes
- GenericSchema
- implicit def mapSchema[RA, RB, A, B](implicit evA: Schema[RA, A], evB: Schema[RB, B]): Schema[RA with RB, Map[A, B]]
- Definition Classes
- GenericSchema
- implicit def metadataFunctionSchema[R0, A](implicit ev: Schema[R0, A]): Schema[R0, (Field) => A]
- Definition Classes
- GenericSchema
- final def ne(arg0: AnyRef): Boolean
- Definition Classes
- AnyRef
- final def notify(): Unit
- Definition Classes
- AnyRef
- Annotations
- @native() @HotSpotIntrinsicCandidate()
- final def notifyAll(): Unit
- Definition Classes
- AnyRef
- Annotations
- @native() @HotSpotIntrinsicCandidate()
- def obj[R1, V](name: String, description: Option[String] = None, directives: List[Directive] = Nil)(fields: (FieldAttributes) => List[(__Field, (V) => Step[R1])]): Schema[R1, V]
Creates a new hand-rolled schema.
Creates a new hand-rolled schema. For normal usage use the derived schemas, this is primarily for schemas which can't be resolved by derivation.
- name
The name of the type
- description
An optional description of the type
- directives
The directives to add to the type
- fields
The fields to add to this object
case class Group(id: String, users: UQuery[List[User]], parent: UQuery[Option[Group]], organization: UQuery[Organization]) case class Organization(id: String, groups: UQuery[List[Group]]) case class User(id: String, group: UQuery[Group]) implicit val groupSchema: Schema[Any, Group] = obj("Group", Some("A group of users"))(implicit ft => List( field("id")(_.id), field("users")(_.users), field("parent")(_.parent), field("organization")(_.organization) ) ) implicit val orgSchema: Schema[Any, Organization] = obj("Organization", Some("An organization of groups"))(implicit ft => List( field("id")(_.id), field("groups")(_.groups) ) ) implicit val userSchema: Schema[Any, User] = obj("User", Some("A user of the service"))(implicit ft => List( field("id")(_.id), field("group")(_.group) ) )
- Definition Classes
- GenericSchema
- def objectSchema[R1, A](name: String, description: Option[String], fields: (Boolean, Boolean) => List[(__Field, (A) => Step[R1])], directives: List[Directive] = List.empty): Schema[R1, A]
Creates an object schema for a type
A
Creates an object schema for a type
A
- name
name of the type
- description
description of the type
- fields
list of fields with a type description and a resolver for each field
- Definition Classes
- GenericSchema
- implicit lazy val offsetDateTimeSchema: Schema[Any, OffsetDateTime]
- Definition Classes
- TemporalSchema
- def offsetDateTimeSchemaWithFormatter(formatter: DateTimeFormatter): Schema[Any, OffsetDateTime]
- Definition Classes
- TemporalSchema
- implicit def optionSchema[R0, A](implicit ev: Schema[R0, A]): Schema[R0, Option[A]]
- Definition Classes
- GenericSchema
- implicit def querySchema[R0, R1 >: R0, R2 >: R0, E <: Throwable, A](implicit ev: Schema[R2, A]): Schema[R0, ZQuery[R1, E, A]]
- Definition Classes
- GenericSchema
- lazy val sampleDate: ZonedDateTime
- Definition Classes
- TemporalSchema
- def scalarSchema[A](name: String, description: Option[String], specifiedBy: Option[String], makeResponse: (A) => ResponseValue): Schema[Any, A]
Creates a scalar schema for a type
A
Creates a scalar schema for a type
A
- name
name of the scalar type
- description
description of the scalar type
- specifiedBy
URL of the scalar specification
- makeResponse
function from
A
to ResponseValue that defines how to resolveA
- Definition Classes
- GenericSchema
- implicit def seqSchema[R0, A](implicit ev: Schema[R0, A]): Schema[R0, Seq[A]]
- Definition Classes
- GenericSchema
- implicit def setSchema[R0, A](implicit ev: Schema[R0, A]): Schema[R0, Set[A]]
- Definition Classes
- GenericSchema
- implicit val shortSchema: Schema[Any, Short]
- Definition Classes
- GenericSchema
- implicit def streamSchema[R0, R1 >: R0, R2 >: R0, E <: Throwable, A](implicit ev: Schema[R2, A]): Schema[R0, ZStream[R1, E, A]]
- Definition Classes
- GenericSchema
- implicit val stringSchema: Schema[Any, String]
- Definition Classes
- GenericSchema
- final def synchronized[T0](arg0: => T0): T0
- Definition Classes
- AnyRef
- def temporalSchema[A <: Temporal](name: String, description: Option[String] = None)(f: (A) => ResponseValue): Schema[Any, A]
- Definition Classes
- TemporalSchema
- def temporalSchemaWithFormatter[A <: Temporal](name: String, description: Option[String] = None)(formatter: DateTimeFormatter): Schema[Any, A]
- Definition Classes
- TemporalSchema
- def toString(): String
- Definition Classes
- AnyRef → Any
- implicit def tupleSchema[RA, RB, A, B](implicit evA: Schema[RA, A], evB: Schema[RB, B]): Schema[RA with RB, (A, B)]
- Definition Classes
- GenericSchema
- implicit val unitSchema: Schema[Any, Unit]
- Definition Classes
- GenericSchema
- implicit val uploadSchema: Schema[Any, Upload]
- Definition Classes
- GenericSchema
- implicit val uuidSchema: Schema[Any, UUID]
- Definition Classes
- GenericSchema
- implicit def vectorSchema[R0, A](implicit ev: Schema[R0, A]): Schema[R0, Vector[A]]
- Definition Classes
- GenericSchema
- final def wait(arg0: Long, arg1: Int): Unit
- Definition Classes
- AnyRef
- Annotations
- @throws(classOf[java.lang.InterruptedException])
- final def wait(arg0: Long): Unit
- Definition Classes
- AnyRef
- Annotations
- @throws(classOf[java.lang.InterruptedException]) @native()
- final def wait(): Unit
- Definition Classes
- AnyRef
- Annotations
- @throws(classOf[java.lang.InterruptedException])
- implicit lazy val zonedDateTimeSchema: Schema[Any, ZonedDateTime]
- Definition Classes
- TemporalSchema
- def zonedDateTimeSchemaWithFormatter(formatter: DateTimeFormatter): Schema[Any, ZonedDateTime]
- Definition Classes
- TemporalSchema
- object auto extends AutoSchemaDerivation[R]
- Definition Classes
- SchemaDerivation
Deprecated Value Members
- def finalize(): Unit
- Attributes
- protected[lang]
- Definition Classes
- AnyRef
- Annotations
- @throws(classOf[java.lang.Throwable]) @Deprecated
- Deprecated