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Kotlin Full Reflection Library
/*
* Copyright 2010-2015 JetBrains s.r.o.
*
* 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 kotlin.reflect.jvm.internal
import org.jetbrains.kotlin.builtins.jvm.JavaToKotlinClassMap
import org.jetbrains.kotlin.descriptors.*
import org.jetbrains.kotlin.descriptors.annotations.Annotated
import org.jetbrains.kotlin.descriptors.annotations.AnnotationDescriptor
import org.jetbrains.kotlin.descriptors.impl.DeclarationDescriptorVisitorEmptyBodies
import org.jetbrains.kotlin.descriptors.runtime.components.ReflectAnnotationSource
import org.jetbrains.kotlin.descriptors.runtime.components.ReflectKotlinClass
import org.jetbrains.kotlin.descriptors.runtime.components.RuntimeSourceElementFactory
import org.jetbrains.kotlin.descriptors.runtime.components.tryLoadClass
import org.jetbrains.kotlin.descriptors.runtime.structure.ReflectJavaAnnotation
import org.jetbrains.kotlin.descriptors.runtime.structure.ReflectJavaClass
import org.jetbrains.kotlin.descriptors.runtime.structure.safeClassLoader
import org.jetbrains.kotlin.load.kotlin.KotlinJvmBinarySourceElement
import org.jetbrains.kotlin.metadata.ProtoBuf
import org.jetbrains.kotlin.metadata.deserialization.BinaryVersion
import org.jetbrains.kotlin.metadata.deserialization.NameResolver
import org.jetbrains.kotlin.metadata.deserialization.TypeTable
import org.jetbrains.kotlin.metadata.deserialization.VersionRequirementTable
import org.jetbrains.kotlin.name.ClassId
import org.jetbrains.kotlin.name.FqName
import org.jetbrains.kotlin.protobuf.MessageLite
import org.jetbrains.kotlin.resolve.constants.*
import org.jetbrains.kotlin.resolve.descriptorUtil.annotationClass
import org.jetbrains.kotlin.resolve.descriptorUtil.classId
import org.jetbrains.kotlin.resolve.isInlineClassType
import org.jetbrains.kotlin.serialization.deserialization.DeserializationContext
import org.jetbrains.kotlin.serialization.deserialization.MemberDeserializer
import java.lang.reflect.Type
import kotlin.jvm.internal.FunctionReference
import kotlin.jvm.internal.PropertyReference
import kotlin.reflect.KType
import kotlin.reflect.KVisibility
import kotlin.reflect.full.IllegalCallableAccessException
import kotlin.reflect.jvm.internal.calls.createAnnotationInstance
internal val JVM_STATIC = FqName("kotlin.jvm.JvmStatic")
internal fun ClassDescriptor.toJavaClass(): Class<*>? {
val source = source
return when (source) {
is KotlinJvmBinarySourceElement -> {
(source.binaryClass as ReflectKotlinClass).klass
}
is RuntimeSourceElementFactory.RuntimeSourceElement -> {
(source.javaElement as ReflectJavaClass).element
}
else -> {
// If this is neither a Kotlin class nor a Java class, it's likely either a built-in or some fake class descriptor like the one
// that's created for java.io.Serializable in JvmBuiltInsSettings
val classId = classId ?: return null
loadClass(javaClass.safeClassLoader, classId, 0)
}
}
}
private fun loadClass(classLoader: ClassLoader, kotlinClassId: ClassId, arrayDimensions: Int = 0): Class<*>? {
val javaClassId = JavaToKotlinClassMap.mapKotlinToJava(kotlinClassId.asSingleFqName().toUnsafe()) ?: kotlinClassId
// All pseudo-classes like kotlin.String.Companion must be accessible from the current class loader
return loadClass(classLoader, javaClassId.packageFqName.asString(), javaClassId.relativeClassName.asString(), arrayDimensions)
}
private fun loadClass(classLoader: ClassLoader, packageName: String, className: String, arrayDimensions: Int): Class<*>? {
if (packageName == "kotlin") {
// See mapBuiltInType() in typeSignatureMapping.kt
when (className) {
"Array" -> return Array::class.java
"BooleanArray" -> return BooleanArray::class.java
"ByteArray" -> return ByteArray::class.java
"CharArray" -> return CharArray::class.java
"DoubleArray" -> return DoubleArray::class.java
"FloatArray" -> return FloatArray::class.java
"IntArray" -> return IntArray::class.java
"LongArray" -> return LongArray::class.java
"ShortArray" -> return ShortArray::class.java
}
}
var fqName = "$packageName.${className.replace('.', '$')}"
if (arrayDimensions > 0) {
fqName = "[".repeat(arrayDimensions) + "L$fqName;"
}
return classLoader.tryLoadClass(fqName)
}
internal fun Class<*>.createArrayType(): Class<*> =
java.lang.reflect.Array.newInstance(this, 0)::class.java
internal fun DescriptorVisibility.toKVisibility(): KVisibility? =
when (this) {
DescriptorVisibilities.PUBLIC -> KVisibility.PUBLIC
DescriptorVisibilities.PROTECTED -> KVisibility.PROTECTED
DescriptorVisibilities.INTERNAL -> KVisibility.INTERNAL
DescriptorVisibilities.PRIVATE, DescriptorVisibilities.PRIVATE_TO_THIS -> KVisibility.PRIVATE
else -> null
}
internal fun Annotated.computeAnnotations(): List =
annotations.mapNotNull {
val source = it.source
when (source) {
is ReflectAnnotationSource -> source.annotation
is RuntimeSourceElementFactory.RuntimeSourceElement -> (source.javaElement as? ReflectJavaAnnotation)?.annotation
else -> it.toAnnotationInstance()
}
}
private fun AnnotationDescriptor.toAnnotationInstance(): Annotation? {
@Suppress("UNCHECKED_CAST")
val annotationClass = annotationClass?.toJavaClass() as? Class ?: return null
return createAnnotationInstance(
annotationClass,
allValueArguments.entries
.mapNotNull { (name, value) -> value.toRuntimeValue(annotationClass.classLoader)?.let(name.asString()::to) }
.toMap()
)
}
// TODO: consider throwing exceptions such as AnnotationFormatError/AnnotationTypeMismatchException if a value of unexpected type is found
private fun ConstantValue<*>.toRuntimeValue(classLoader: ClassLoader): Any? = when (this) {
is AnnotationValue -> value.toAnnotationInstance()
is ArrayValue -> value.map { it.toRuntimeValue(classLoader) }.toTypedArray()
is EnumValue -> {
val (enumClassId, entryName) = value
loadClass(classLoader, enumClassId)?.let { enumClass ->
@Suppress("UNCHECKED_CAST")
Util.getEnumConstantByName(enumClass as Class>, entryName.asString())
}
}
is KClassValue -> when (val classValue = value) {
is KClassValue.Value.NormalClass ->
loadClass(classLoader, classValue.classId, classValue.arrayDimensions)
is KClassValue.Value.LocalClass -> {
// TODO: this doesn't work because of KT-30013
(classValue.type.constructor.declarationDescriptor as? ClassDescriptor)?.toJavaClass()
}
}
is ErrorValue, is NullValue -> null
else -> value // Primitives and strings
}
// TODO: wrap other exceptions
internal inline fun reflectionCall(block: () -> R): R =
try {
block()
} catch (e: IllegalAccessException) {
throw IllegalCallableAccessException(e)
}
internal fun Any?.asKFunctionImpl(): KFunctionImpl? =
this as? KFunctionImpl ?: (this as? FunctionReference)?.compute() as? KFunctionImpl
internal fun Any?.asKPropertyImpl(): KPropertyImpl<*>? =
this as? KPropertyImpl<*> ?: (this as? PropertyReference)?.compute() as? KPropertyImpl
internal fun Any?.asKCallableImpl(): KCallableImpl<*>? =
this as? KCallableImpl<*> ?: asKFunctionImpl() ?: asKPropertyImpl()
internal val CallableDescriptor.instanceReceiverParameter: ReceiverParameterDescriptor?
get() =
if (dispatchReceiverParameter != null) (containingDeclaration as ClassDescriptor).thisAsReceiverParameter
else null
internal fun deserializeToDescriptor(
moduleAnchor: Class<*>,
proto: M,
nameResolver: NameResolver,
typeTable: TypeTable,
metadataVersion: BinaryVersion,
createDescriptor: MemberDeserializer.(M) -> D
): D? {
val moduleData = moduleAnchor.getOrCreateModule()
val typeParameters = when (proto) {
is ProtoBuf.Function -> proto.typeParameterList
is ProtoBuf.Property -> proto.typeParameterList
else -> error("Unsupported message: $proto")
}
val context = DeserializationContext(
moduleData.deserialization, nameResolver, moduleData.module, typeTable, VersionRequirementTable.EMPTY, metadataVersion,
containerSource = null, parentTypeDeserializer = null, typeParameters = typeParameters
)
return MemberDeserializer(context).createDescriptor(proto)
}
internal val KType.isInlineClassType: Boolean
get() = (this as? KTypeImpl)?.type?.isInlineClassType() == true
internal fun defaultPrimitiveValue(type: Type): Any? =
if (type is Class<*> && type.isPrimitive) {
when (type) {
Boolean::class.java -> false
Char::class.java -> 0.toChar()
Byte::class.java -> 0.toByte()
Short::class.java -> 0.toShort()
Int::class.java -> 0
Float::class.java -> 0f
Long::class.java -> 0L
Double::class.java -> 0.0
Void.TYPE -> throw IllegalStateException("Parameter with void type is illegal")
else -> throw UnsupportedOperationException("Unknown primitive: $type")
}
} else null
internal open class CreateKCallableVisitor(private val container: KDeclarationContainerImpl) :
DeclarationDescriptorVisitorEmptyBodies, Unit>() {
override fun visitPropertyDescriptor(descriptor: PropertyDescriptor, data: Unit): KCallableImpl<*> {
val receiverCount = (descriptor.dispatchReceiverParameter?.let { 1 } ?: 0) +
(descriptor.extensionReceiverParameter?.let { 1 } ?: 0)
when {
descriptor.isVar -> when (receiverCount) {
0 -> return KMutableProperty0Impl(container, descriptor)
1 -> return KMutableProperty1Impl(container, descriptor)
2 -> return KMutableProperty2Impl(container, descriptor)
}
else -> when (receiverCount) {
0 -> return KProperty0Impl(container, descriptor)
1 -> return KProperty1Impl(container, descriptor)
2 -> return KProperty2Impl(container, descriptor)
}
}
throw KotlinReflectionInternalError("Unsupported property: $descriptor")
}
override fun visitFunctionDescriptor(descriptor: FunctionDescriptor, data: Unit): KCallableImpl<*> =
KFunctionImpl(container, descriptor)
}