Package org.allGraphQLCases.server

Interface DataFetchersDelegateReservedJavaKeywordAllFieldCases

All Known Implementing Classes:
DataFetchersDelegateReservedJavaKeywordAllFieldCasesImpl
public interface DataFetchersDelegateReservedJavaKeywordAllFieldCases
This interface contains the fata fetchers that are delegated in the bean that the implementation has to provide, when fetching fields for the ReservedJavaKeywordAllFieldCases GraphQL type, as defined in the provided GraphQL schema. Please read the wiki server page for more information on this.
Author:
generated by graphql-java-generator
See Also:

  • Method Summary

    Modifier and Type
    Method
    Description
    Object
    _implements(graphql.schema.DataFetchingEnvironment dataFetchingEnvironment, org.dataloader.DataLoader<UUID,SIP_WithID_SIS> dataLoader, STP_ReservedJavaKeywordAllFieldCases_STS origin)
    Description for the implements field:
    A field with a java reserved name which is an interface
    This method loads the data for ReservedJavaKeywordAllFieldCases.implements.
    Object
    _int(graphql.schema.DataFetchingEnvironment dataFetchingEnvironment, org.dataloader.DataLoader<UUID,STP_Human_STS> dataLoader, STP_ReservedJavaKeywordAllFieldCases_STS origin)
    Description for the int field:
    A field with a java reserved name which is an object type
    This method loads the data for ReservedJavaKeywordAllFieldCases.int.
    Object
    _interface(graphql.schema.DataFetchingEnvironment dataFetchingEnvironment, STP_ReservedJavaKeywordAllFieldCases_STS origin)
    Description for the interface field:
    A field with a java reserved name which is a union
    This method loads the data for ReservedJavaKeywordAllFieldCases.interface.
    Object
    nonJavaKeywordField(graphql.schema.DataFetchingEnvironment dataFetchingEnvironment, org.dataloader.DataLoader<UUID,SIP_WithID_SIS> dataLoader, STP_ReservedJavaKeywordAllFieldCases_STS origin)
    Description for the nonJavaKeywordField field:
    A field with a _non_ java reserved name which is an interface (to check standard behavior)
    This method loads the data for ReservedJavaKeywordAllFieldCases.nonJavaKeywordField.

  • Method Details

    • nonJavaKeywordField

      Object nonJavaKeywordField(graphql.schema.DataFetchingEnvironment dataFetchingEnvironment, org.dataloader.DataLoader<UUID,SIP_WithID_SIS> dataLoader, STP_ReservedJavaKeywordAllFieldCases_STS origin)
      Description for the nonJavaKeywordField field:
      A field with a _non_ java reserved name which is an interface (to check standard behavior)
      This method loads the data for ReservedJavaKeywordAllFieldCases.nonJavaKeywordField. It may return whatever is accepted by the Spring Controller, that is:
      • A resolved value of any type (typically, a org.allGraphQLCases.server.SIP_WithID_SIS)
      • Mono and Flux for asynchronous value(s). Supported for controller methods and for any DataFetcher as described in Reactive DataFetcher. This would typically be a Mono<org.allGraphQLCases.server.SIP_WithID_SIS> or a Flux<org.allGraphQLCases.server.SIP_WithID_SIS>
      • Kotlin coroutine and Flow are adapted to Mono and Flux
      • java.util.concurrent.Callable to have the value(s) produced asynchronously. For this to work, AnnotatedControllerConfigurer must be configured with an Executor. This would typically by a Callable<org.allGraphQLCases.server.SIP_WithID_SIS>
      As a complement to the spring-graphql documentation, you may also return:
      • A CompletableFuture<?>, for instance CompletableFuture<org.allGraphQLCases.server.SIP_WithID_SIS>. This allows to use graphql-java java-dataloader to highly optimize the number of requests to the server. The principle is this one: The data loader collects all the data to load, avoid to load several times the same data, and allows parallel execution of the queries, if multiple queries are to be run.
      • A Publisher (instead of a Flux), for Subscription for instance
      Parameters:
      dataFetchingEnvironment - The GraphQL DataFetchingEnvironment. It gives you access to the full GraphQL context for this DataFetcher
      dataLoader - The DataLoader allows to load several data in one query. It allows to solve the (n+1) queries issues, and greatly optimizes the response time.
      You'll find more informations here: https://github.com/graphql-java/java-dataloader
      origin - The object from which the field is fetch. In other word: the aim of this data fetcher is to fetch the nonJavaKeywordField attribute of the origin, which is an instance of {ObjectType {name:ReservedJavaKeywordAllFieldCases, fields:{Field{name:if, type:Unit, params:[]},Field{name:nonJavaKeywordField, type:WithID, params:[]},Field{name:implements, type:WithID, params:[]},Field{name:import, type:String, params:[]},Field{name:instanceof, type:MyCustomScalarForADate, params:[]},Field{name:int, type:Human, params:[]},Field{name:interface, type:AnyCharacter, params:[]}}, comments ""}. It depends on your data modle, but it typically contains the id to use in the query.
      Throws:
      NoSuchElementException - This method may return a NoSuchElementException exception. In this case, the exception is trapped by the calling method, and the return is consider as null. This allows to use the Optional.get() method directly, without caring of whether or not there is a value. The generated code will take care of the NoSuchElementException exception.

    • _implements

      Object _implements(graphql.schema.DataFetchingEnvironment dataFetchingEnvironment, org.dataloader.DataLoader<UUID,SIP_WithID_SIS> dataLoader, STP_ReservedJavaKeywordAllFieldCases_STS origin)
      Description for the implements field:
      A field with a java reserved name which is an interface
      This method loads the data for ReservedJavaKeywordAllFieldCases.implements. It may return whatever is accepted by the Spring Controller, that is:
      • A resolved value of any type (typically, a org.allGraphQLCases.server.SIP_WithID_SIS)
      • Mono and Flux for asynchronous value(s). Supported for controller methods and for any DataFetcher as described in Reactive DataFetcher. This would typically be a Mono<org.allGraphQLCases.server.SIP_WithID_SIS> or a Flux<org.allGraphQLCases.server.SIP_WithID_SIS>
      • Kotlin coroutine and Flow are adapted to Mono and Flux
      • java.util.concurrent.Callable to have the value(s) produced asynchronously. For this to work, AnnotatedControllerConfigurer must be configured with an Executor. This would typically by a Callable<org.allGraphQLCases.server.SIP_WithID_SIS>
      As a complement to the spring-graphql documentation, you may also return:
      • A CompletableFuture<?>, for instance CompletableFuture<org.allGraphQLCases.server.SIP_WithID_SIS>. This allows to use graphql-java java-dataloader to highly optimize the number of requests to the server. The principle is this one: The data loader collects all the data to load, avoid to load several times the same data, and allows parallel execution of the queries, if multiple queries are to be run.
      • A Publisher (instead of a Flux), for Subscription for instance
      Parameters:
      dataFetchingEnvironment - The GraphQL DataFetchingEnvironment. It gives you access to the full GraphQL context for this DataFetcher
      dataLoader - The DataLoader allows to load several data in one query. It allows to solve the (n+1) queries issues, and greatly optimizes the response time.
      You'll find more informations here: https://github.com/graphql-java/java-dataloader
      origin - The object from which the field is fetch. In other word: the aim of this data fetcher is to fetch the implements attribute of the origin, which is an instance of {ObjectType {name:ReservedJavaKeywordAllFieldCases, fields:{Field{name:if, type:Unit, params:[]},Field{name:nonJavaKeywordField, type:WithID, params:[]},Field{name:implements, type:WithID, params:[]},Field{name:import, type:String, params:[]},Field{name:instanceof, type:MyCustomScalarForADate, params:[]},Field{name:int, type:Human, params:[]},Field{name:interface, type:AnyCharacter, params:[]}}, comments ""}. It depends on your data modle, but it typically contains the id to use in the query.
      Throws:
      NoSuchElementException - This method may return a NoSuchElementException exception. In this case, the exception is trapped by the calling method, and the return is consider as null. This allows to use the Optional.get() method directly, without caring of whether or not there is a value. The generated code will take care of the NoSuchElementException exception.

    • _int

      Object _int(graphql.schema.DataFetchingEnvironment dataFetchingEnvironment, org.dataloader.DataLoader<UUID,STP_Human_STS> dataLoader, STP_ReservedJavaKeywordAllFieldCases_STS origin)
      Description for the int field:
      A field with a java reserved name which is an object type
      This method loads the data for ReservedJavaKeywordAllFieldCases.int. It may return whatever is accepted by the Spring Controller, that is:
      • A resolved value of any type (typically, a org.allGraphQLCases.server.STP_Human_STS)
      • Mono and Flux for asynchronous value(s). Supported for controller methods and for any DataFetcher as described in Reactive DataFetcher. This would typically be a Mono<org.allGraphQLCases.server.STP_Human_STS> or a Flux<org.allGraphQLCases.server.STP_Human_STS>
      • Kotlin coroutine and Flow are adapted to Mono and Flux
      • java.util.concurrent.Callable to have the value(s) produced asynchronously. For this to work, AnnotatedControllerConfigurer must be configured with an Executor. This would typically by a Callable<org.allGraphQLCases.server.STP_Human_STS>
      As a complement to the spring-graphql documentation, you may also return:
      • A CompletableFuture<?>, for instance CompletableFuture<org.allGraphQLCases.server.STP_Human_STS>. This allows to use graphql-java java-dataloader to highly optimize the number of requests to the server. The principle is this one: The data loader collects all the data to load, avoid to load several times the same data, and allows parallel execution of the queries, if multiple queries are to be run.
      • A Publisher (instead of a Flux), for Subscription for instance
      Parameters:
      dataFetchingEnvironment - The GraphQL DataFetchingEnvironment. It gives you access to the full GraphQL context for this DataFetcher
      dataLoader - The DataLoader allows to load several data in one query. It allows to solve the (n+1) queries issues, and greatly optimizes the response time.
      You'll find more informations here: https://github.com/graphql-java/java-dataloader
      origin - The object from which the field is fetch. In other word: the aim of this data fetcher is to fetch the int attribute of the origin, which is an instance of {ObjectType {name:ReservedJavaKeywordAllFieldCases, fields:{Field{name:if, type:Unit, params:[]},Field{name:nonJavaKeywordField, type:WithID, params:[]},Field{name:implements, type:WithID, params:[]},Field{name:import, type:String, params:[]},Field{name:instanceof, type:MyCustomScalarForADate, params:[]},Field{name:int, type:Human, params:[]},Field{name:interface, type:AnyCharacter, params:[]}}, comments ""}. It depends on your data modle, but it typically contains the id to use in the query.
      Throws:
      NoSuchElementException - This method may return a NoSuchElementException exception. In this case, the exception is trapped by the calling method, and the return is consider as null. This allows to use the Optional.get() method directly, without caring of whether or not there is a value. The generated code will take care of the NoSuchElementException exception.

    • _interface

      Object _interface(graphql.schema.DataFetchingEnvironment dataFetchingEnvironment, STP_ReservedJavaKeywordAllFieldCases_STS origin)
      Description for the interface field:
      A field with a java reserved name which is a union
      This method loads the data for ReservedJavaKeywordAllFieldCases.interface. It may return whatever is accepted by the Spring Controller, that is:
      • A resolved value of any type (typically, a org.allGraphQLCases.server.SUP_AnyCharacter_SUS)
      • Mono and Flux for asynchronous value(s). Supported for controller methods and for any DataFetcher as described in Reactive DataFetcher. This would typically be a Mono<org.allGraphQLCases.server.SUP_AnyCharacter_SUS> or a Flux<org.allGraphQLCases.server.SUP_AnyCharacter_SUS>
      • Kotlin coroutine and Flow are adapted to Mono and Flux
      • java.util.concurrent.Callable to have the value(s) produced asynchronously. For this to work, AnnotatedControllerConfigurer must be configured with an Executor. This would typically by a Callable<org.allGraphQLCases.server.SUP_AnyCharacter_SUS>
      As a complement to the spring-graphql documentation, you may also return:
      • A CompletableFuture<?>, for instance CompletableFuture<org.allGraphQLCases.server.SUP_AnyCharacter_SUS>. This allows to use graphql-java java-dataloader to highly optimize the number of requests to the server. The principle is this one: The data loader collects all the data to load, avoid to load several times the same data, and allows parallel execution of the queries, if multiple queries are to be run.
      • A Publisher (instead of a Flux), for Subscription for instance
      Parameters:
      dataFetchingEnvironment - The GraphQL DataFetchingEnvironment. It gives you access to the full GraphQL context for this DataFetcher
      origin - The object from which the field is fetch. In other word: the aim of this data fetcher is to fetch the interface attribute of the origin, which is an instance of {ObjectType {name:ReservedJavaKeywordAllFieldCases, fields:{Field{name:if, type:Unit, params:[]},Field{name:nonJavaKeywordField, type:WithID, params:[]},Field{name:implements, type:WithID, params:[]},Field{name:import, type:String, params:[]},Field{name:instanceof, type:MyCustomScalarForADate, params:[]},Field{name:int, type:Human, params:[]},Field{name:interface, type:AnyCharacter, params:[]}}, comments ""}. It depends on your data modle, but it typically contains the id to use in the query.
      Throws:
      NoSuchElementException - This method may return a NoSuchElementException exception. In this case, the exception is trapped by the calling method, and the return is consider as null. This allows to use the Optional.get() method directly, without caring of whether or not there is a value. The generated code will take care of the NoSuchElementException exception.