Package io.avaje.prism
The problem: When writing annotation processors the two conventional mechanisms to access the
annotations in the source code are both awkward. Element.getAnnotation() can throw
Exceptions if the annotation being modelled is not semantically correct, and the member methods
on the returned Annotation can also throw Exceptions if the annotation being modelled is not
semantically correct. Moreover when calling a member with a Class return type, you need
to catch an exception to extract the TypeMirror.
On the other hand, AnnotationMirror and AnnotationValue do a good job of modelling both correct and incorrect annotations, but provide no simple mechanism to determine whether it is correct or incorrect, and provide no convenient functionality to access the member values in a simple type specific way. While AnnotationMirror and AnnotationValue provide an ideal mechanism for dealing with unknown annotations, they are inconvenient for reading member values from known annotations.
A Prism provides a solution to this problem by combining the advantages of the pure reflective
model of AnnotationMirror and the runtime (real) model provided by
Element.getAnnotation(), hence the term Prism to capture this idea of partial reflection.
A Mirror is where you look for a reflection whereas a Prism is where you look for a partial
reflection. A Prism provides a partially reflective and partially real view of an
Annotation.
A Prism class is generated by using the @GeneratePrism annotation, or several can be
grouped together using @GeneratePrisms. The generated prisms have a complete set of
javadoc for reference.
An instance of a Prism is obtained by calling the generated prism's factory method
getInstance(AnnotationMirror) to obtain a prism corresponding to an annotation mirror, or the
factory method getInstanceOn(Element) to obtain an instance corresponding to an
annotation on the specified Element.
A prism has the same member methods as the annotation except that the return types are translated from runtime types to compile time types as follows...
- Primitive members return their equivalent wrapper class in the prism.
- Class members return a
TypeMirrorfrom the mirror API. - Enum members return a String being the name of the enum constant (because the constant value in the mirror API might not match those available in the runtime it cannot consistently return the appropriate enum).
- String members return Strings.
- Annotation members return a Prism of the annotation. If a prism for that annotation is generated from the same @GeneratePrisms annotation as the prism that uses it, then an instance of that prism will be returned. Otherwise a Prism for that annotation is supplied as an inner class of the dependant Prism. the name of which is the simple name of the referenced annotation type.
- Array members return a
List<X>where X is the appropriate prism mapping of the array component as above.
isValid field
will be false, and the member(s) with the erroneous value will return null. If isValid is
true then no members will return null. AnnotatonProcessors using a prism should ignore
any prism instance that is invalid. It can be assumed that the processing tool itself will
indicate an error to the user in this case.
The mirror field provides access to the underlying AnnotationMirror to assist with
using the Messager.
The values field contains an object whose methods have the same signature as the
annotation's methods but return the corresponding AnnotationValue or null if that member of the
Annotation does not have a value. This is provided for use when using Messager which can take an
AnnotationValue as a hint as to the message's position in the source code.
To generate a prism of a known annotation to be used by an AnnotationProcessor, use the @GeneratePrism annotation on either the Processor itself, or the
package, compile once and the prism should be generated. The Processor for @GeneratePrism
will be discovered automatically using the ServiceLoader mechanism if the
annotation processing tool supports that means of discovery process.
If the processor needs to access prisms for more than one annotation type, use @GeneratePrisms to group together all the @GeneratePrism
annotations needed.
-
Annotation TypesClassDescriptionGenerates a Prism for the specified annotation, in the same package as the target.Use this to group several @GeneratePrism annotations together, for example in a package annotation.