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A library for extracting object structure surface
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/*
* Licensed under the Apache License, Version 2.0 (the "License");
* you may not use this file except in compliance with the License.
* You may obtain a copy of the License at
*
* http://www.apache.org/licenses/LICENSE-2.0
*
* Unless required by applicable law or agreed to in writing, software
* distributed under the License is distributed on an "AS IS" BASIS,
* WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
* See the License for the specific language governing permissions and
* limitations under the License.
*/
package wvlet.airframe.surface
import java.lang.annotation.Annotation
import java.lang.reflect.Method
import java.{lang => jl}
import scala.annotation.tailrec
import scala.reflect.ClassTag
import scala.util.{Failure, Success, Try}
/**
*/
package object reflect {
private[reflect] def findAnnotation[T <: jl.annotation.Annotation: ClassTag](
annot: Seq[jl.annotation.Annotation]
): Option[T] = {
val c = implicitly[ClassTag[T]]
annot
.collectFirst {
case x if (c.runtimeClass isAssignableFrom x.annotationType) => x
}
.asInstanceOf[Option[T]]
}
implicit class ToRuntimeSurface(s: Surface) {
def findAnnotationOwnerOf[T <: jl.annotation.Annotation: ClassTag]: Option[Class[_]] = {
val c = implicitly[ClassTag[T]]
def loop(cl: Class[_]): Option[Class[_]] = {
cl match {
case null => None
case _ =>
if (cl.getDeclaredAnnotations.exists(a => c.runtimeClass.isAssignableFrom(a.annotationType()))) {
Some(cl)
} else {
cl.getInterfaces.find(x => loop(x).isDefined)
}
}
}
loop(s.rawType)
}
def findAnnotationOf[T <: jl.annotation.Annotation: ClassTag]: Option[T] = {
findAnnotationFromClass[T](s.rawType)
}
}
def findAnnotationFromClass[T <: jl.annotation.Annotation: ClassTag](cls: Class[_]): Option[T] = {
def loop(cl: Class[_]): Seq[Annotation] = {
cl match {
case null => Seq.empty
case _ =>
cl.getDeclaredAnnotations.toIndexedSeq ++ cl.getInterfaces.flatMap(loop)
}
}
val annot = loop(cls)
findAnnotation[T](annot)
}
def findDeclaredAnnotation[T <: jl.annotation.Annotation: ClassTag](cls: Class[_]): Option[T] = {
findAnnotation[T](cls.getDeclaredAnnotations.toIndexedSeq)
}
implicit class ToRuntimeSurfaceParameter(p: Parameter) {
def annotations: Array[Array[jl.annotation.Annotation]] = {
p match {
case mp: MethodParameter =>
Try {
if (mp.method.name == "") {
// constructor
val owner = mp.method.owner
Try(owner.getDeclaredConstructor(mp.method.paramTypes: _*)).toOption
.map(_.getParameterAnnotations)
.getOrElse {
// inner classes
owner
.getDeclaredConstructors()(0)
.getParameterAnnotations()
.tail
}
} else {
mp.method.owner.getDeclaredMethod(mp.method.name, mp.method.paramTypes: _*).getParameterAnnotations
}
}.getOrElse(Array.empty)
case other =>
Array.empty
}
}
def findAnnotationOf[T <: jl.annotation.Annotation: ClassTag]: Option[T] = {
val annots = annotations
if (p.index < annots.length) {
findAnnotation[T](annots(p.index).toIndexedSeq)
} else {
None
}
}
}
implicit class ToRuntimeMethodSurface(m: MethodSurface) {
def annotations: Seq[jl.annotation.Annotation] = {
Try {
val cl = m.owner.rawType
val methodArgTypes = m.args.map(_.surface.rawType)
def loop(cl: Class[_]): Seq[Annotation] = {
cl match {
case null => Seq.empty
case other =>
Try(cl.getMethod(m.name, methodArgTypes: _*)) match {
case Success(mt) =>
mt.getDeclaredAnnotations.toIndexedSeq ++
cl.getInterfaces.flatMap(parent => loop(parent))
case _ =>
Seq.empty
}
}
}
val annot = loop(cl)
annot
} match {
case Success(annot) =>
annot
case Failure(e) =>
Seq.empty
}
}
def findAnnotationOf[T <: jl.annotation.Annotation: ClassTag]: Option[T] = {
findAnnotation[T](annotations)
}
}
}