Interface Definition

All Superinterfaces:
Cloneable, DebugDumpable, Freezable, PrismContextSensitive, Revivable, Serializable, SmartVisitable<Definition>, Visitable<Definition>
All Known Subinterfaces:
AttributeContainerDefinitionDelegator, AttributeDefinitionDelegator<T>, ComplexTypeDefinition, ComplexTypeDefinitionDelegator, CompositeObjectDefinition, CompositeObjectDefinitionDelegator, ContainerDefinitionDelegator<C>, DefinitionDelegator, EnumerationTypeDefinition, ItemDefinition<I>, ItemDefinitionDelegator<I>, ItemWrapper<I,VW>, MutableComplexTypeDefinition, MutableDefinition, MutableItemDefinition<I>, MutablePrismContainerDefinition<C>, MutablePrismObjectDefinition<O>, MutablePrismPropertyDefinition<T>, MutablePrismReferenceDefinition, MutableRawResourceAttributeDefinition<T>, MutableResourceObjectClassDefinition, MutableTypeDefinition, ObjectDefinitionDelegator<O>, PrismContainerDefinition<C>, PrismContainerWrapper<C>, PrismObjectDefinition<O>, PrismObjectWrapper<O>, PrismPropertyDefinition<T>, PrismPropertyWrapper<T>, PrismReferenceDefinition, PrismReferenceWrapper<R>, PropertyDefinitionDelegator<T>, RawResourceAttributeDefinition<T>, ReferenceDefinitionDelegator, RefinedAttributeDefinitionDelegator<T>, ResourceAttributeContainerDefinition, ResourceAttributeDefinition<T>, ResourceAttributeWrapper<T>, ResourceObjectClassDefinition, ResourceObjectClassDefinitionDelegator, ResourceObjectDefinition, ResourceObjectDefinitionDelegator, ResourceObjectTypeDefinition, ResourceObjectTypeDefinitionDelegator, ShadowWrapper, SimpleTypeDefinition, TypeDefinition, TypeDefinitionDelegator
All Known Implementing Classes:
AbstractResourceObjectDefinitionImpl, AssignmentHolderWrapper, AuthenticationAttemptWrapper, AuthenticationBehaviorWrapper, CaseWorkItemTypeWrapper, CompositeObjectDefinitionImpl, com.evolveum.midpoint.prism.impl.DefinitionImpl, ExpressionWrapper, com.evolveum.midpoint.prism.impl.ItemDefinitionImpl, ItemWrapperImpl, com.evolveum.midpoint.prism.impl.PrismContainerDefinitionImpl, PrismContainerWrapperImpl, PrismObjectWrapperImpl, com.evolveum.midpoint.prism.impl.PrismPropertyDefinitionImpl, PrismPropertyWrapperImpl, PrismReferenceWrapperImpl, ProfilingClassLoggerContainerWrapperImpl, ProtectedStringTypeWrapperImpl, RawResourceAttributeDefinitionImpl, ResourceAttributeContainerDefinitionImpl, ResourceAttributeDefinitionImpl, ResourceAttributeMappingWrapper, ResourceAttributeWrapperImpl, ResourceObjectClassDefinitionImpl, ResourceObjectTypeDefinitionImpl, ResourceWrapper, ShadowAssociationWrapperImpl, ShadowWrapperImpl, ValueMetadataWrapperImpl

Common interface to access all definitions.
  • Method Details

    • getTypeName

      @NotNull @NotNull QName getTypeName()
      Returns a name of the type for this definition. The type can be part of the compile-time schema or it can be defined at run time. Examples of the former case are types like c:UserType, xsd:string, or even flexible ones like c:ExtensionType or c:ShadowAttributesType. Examples of the latter case are types used in - custom extensions, like ext:LocationsType (where ext = e.g. http://example.com/extension), - resource schema, like ri:inetOrgPerson (ri = http://.../resource/instance-3), - connector schema, like TODO In XML representation that corresponds to the name of the XSD type. Although beware, the run-time types do not have statically defined structure. And the resource and connector-related types may even represent different kinds of objects within different contexts (e.g. two distinct resources both with ri:AccountObjectClass types). Also note that for complex type definitions, the type name serves as a unique identifier. On the other hand, for item definitions, it is just one of its attributes; primary key is item name in that case. The type name should be fully qualified. (TODO reconsider this)
      Returns:
      the type name
    • isRuntimeSchema

      boolean isRuntimeSchema()
      This means that this particular definition (of an item or of a type) is part of the runtime schema, e.g. extension schema, resource schema or connector schema or something like that. I.e. it is not defined statically.
    • isIgnored

      @Deprecated default boolean isIgnored()
      Deprecated.
      Item definition that has this flag set should be ignored by any processing. The ignored item is still part of the schema. Item instances may appear in the serialized data formats (e.g. XML) or data store and the parser should not raise an error if it encounters them. But any high-level processing code should ignore presence of this item. E.g. it should not be displayed to the user, should not be present in transformed data structures, etc. Note that the same item can be ignored at higher layer (e.g. presentation) but not ignored at lower layer (e.g. model). This works by presenting different item definitions for these layers (see LayerRefinedAttributeDefinition). Semantics of this flag for complex type definitions is to be defined yet.
    • getProcessing

      ItemProcessing getProcessing()
      Level of processing (ignore, minimal, auto, full) for this item/type.
    • isAbstract

      boolean isAbstract()
      For types: is the type abstract so that it should not be instantiated directly? For items: TODO
    • isDeprecated

      boolean isDeprecated()
    • isRemoved

      boolean isRemoved()
    • getRemovedSince

      String getRemovedSince()
    • isExperimental

      boolean isExperimental()
      Experimental functionality is not stable and it may be changed in any future release without any warning. Use at your own risk.
    • getPlannedRemoval

      String getPlannedRemoval()
      Version of data model in which the item is likely to be removed. This annotation is used for deprecated item to indicate imminent incompatibility in future versions of data model.
    • isElaborate

      boolean isElaborate()
      Elaborate items are complicated data structure that may deviate from normal principles of the system. For example elaborate items may not be supported in user interface and may only be manageable by raw edits or a special-purpose tools. Elaborate items may be not fully supported by authorizations, schema tools and so on.
    • getDeprecatedSince

      String getDeprecatedSince()
    • isEmphasized

      boolean isEmphasized()
      True for definitions that are more important than others and that should be emphasized during presentation. E.g. the emphasized definitions will always be displayed in the user interfaces (even if they are empty), they will always be included in the dumps, etc.
    • getDisplayName

      String getDisplayName()
      Returns display name. Specifies the printable name of the object class or attribute. It must contain a printable string. It may also contain a key to catalog file. Returns null if no display name is set. Corresponds to "displayName" XSD annotation.
      Returns:
      display name string or catalog key
    • getDisplayOrder

      Integer getDisplayOrder()
      Specifies an order in which the item should be displayed relative to other items at the same level. The items will be displayed by sorting them by the values of displayOrder annotation (ascending). Items that do not have any displayOrder annotation will be displayed last. The ordering of values with the same displayOrder is undefined and it may be arbitrary.
    • getHelp

      String getHelp()
      Returns help string. Specifies the help text or a key to catalog file for a help text. The help text may be displayed in any suitable way by the GUI. It should explain the meaning of an attribute or object class. Returns null if no help string is set. Corresponds to "help" XSD annotation.
      Returns:
      help string or catalog key
    • getDocumentation

      String getDocumentation()
    • getDocumentationPreview

      String getDocumentationPreview()
      Returns only a first sentence of documentation.
    • getSchemaRegistry

      default SchemaRegistry getSchemaRegistry()
    • getTypeClass

      Class<?> getTypeClass()
      Returns a compile-time class that is used to represent items. E.g. returns String, Integer, subclasses of Objectable and Containerable and so on.
    • getAnnotation

      @Experimental <A> A getAnnotation(QName qname)
      Returns generic definition annotation. Annotations are a method to extend schema definitions. This may be annotation stored in the schema definition file (e.g. XSD) or it may be a dynamic annotation determined at run-time. Annotation value should be a prism-supported object. E.g. a prims "bean" (JAXB annotated class), prism item, prism value or something like that. EXPERIMENTAL. Hic sunt leones. This may change at any moment. Note: annotations are only partially supported now (3.8). They are somehow transient. E.g. they are not serialized to XSD schema definitions (yet).
    • setAnnotation

      <A> void setAnnotation(QName qname, A value)
    • getAnnotations

      @Nullable @Nullable Map<QName,Object> getAnnotations()
      Returns all annotations, as unmodifiable map. Nullable by design, to avoid creating lots of empty maps.
    • getSchemaMigrations

      @Nullable @Nullable List<SchemaMigration> getSchemaMigrations()
    • getDiagrams

    • clone

      @NotNull @NotNull Definition clone()
    • debugDump

      default String debugDump(int indent, IdentityHashMap<Definition,Object> seen)
    • toMutable

      MutableDefinition toMutable()
      Returns an interface to mutate this definition.
    • getMutabilityFlag

      default String getMutabilityFlag()