kotlin.reflect.jvm.internal.impl.resolve.inlineClassesUtils.kt Maven / Gradle / Ivy
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Kotlin Full Reflection Library
/*
* Copyright 2000-2018 JetBrains s.r.o. and Kotlin Programming Language contributors.
* Use of this source code is governed by the Apache 2.0 license that can be found in the license/LICENSE.txt file.
*/
package kotlin.reflect.jvm.internal.impl.resolve
import kotlin.reflect.jvm.internal.impl.descriptors.*
import kotlin.reflect.jvm.internal.impl.name.FqName
import kotlin.reflect.jvm.internal.impl.types.KotlinType
import kotlin.reflect.jvm.internal.impl.types.TypeSubstitutor
import kotlin.reflect.jvm.internal.impl.types.TypeUtils
import kotlin.reflect.jvm.internal.impl.types.Variance
import kotlin.reflect.jvm.internal.impl.utils.addToStdlib.safeAs
val JVM_INLINE_ANNOTATION_FQ_NAME = FqName("kotlin.jvm.JvmInline")
fun ClassDescriptor.underlyingRepresentation(): ValueParameterDescriptor? {
if (!isInlineClass()) return null
return unsubstitutedPrimaryConstructor?.valueParameters?.singleOrNull()
}
// FIXME: DeserializedClassDescriptor in reflection do not have @JvmInline annotation, that we
// FIXME: would like to check as well.
fun DeclarationDescriptor.isInlineClass() = this is ClassDescriptor && (isInline || isValue)
fun KotlinType.unsubstitutedUnderlyingParameter(): ValueParameterDescriptor? {
return constructor.declarationDescriptor.safeAs()?.underlyingRepresentation()
}
fun KotlinType.unsubstitutedUnderlyingType(): KotlinType? = unsubstitutedUnderlyingParameter()?.type
fun KotlinType.isInlineClassType(): Boolean = constructor.declarationDescriptor?.isInlineClass() ?: false
fun KotlinType.substitutedUnderlyingType(): KotlinType? {
val parameter = unsubstitutedUnderlyingParameter() ?: return null
return TypeSubstitutor.create(this).substitute(parameter.type, Variance.INVARIANT)
}
fun KotlinType.isRecursiveInlineClassType() =
isRecursiveInlineClassTypeInner(hashSetOf())
private fun KotlinType.isRecursiveInlineClassTypeInner(visited: HashSet): Boolean {
val descriptor = constructor.declarationDescriptor?.original ?: return false
if (!visited.add(descriptor)) return true
return when (descriptor) {
is ClassDescriptor ->
descriptor.isInlineClass() &&
unsubstitutedUnderlyingType()?.isRecursiveInlineClassTypeInner(visited) == true
is TypeParameterDescriptor ->
descriptor.upperBounds.any { it.isRecursiveInlineClassTypeInner(visited) }
else -> false
}
}
fun KotlinType.isNullableUnderlyingType(): Boolean {
if (!isInlineClassType()) return false
val underlyingType = unsubstitutedUnderlyingType() ?: return false
return TypeUtils.isNullableType(underlyingType)
}
fun CallableDescriptor.isGetterOfUnderlyingPropertyOfInlineClass() =
this is PropertyGetterDescriptor && correspondingProperty.isUnderlyingPropertyOfInlineClass()
fun VariableDescriptor.isUnderlyingPropertyOfInlineClass(): Boolean {
if (extensionReceiverParameter != null) return false
val containingDeclaration = this.containingDeclaration
if (!containingDeclaration.isInlineClass()) return false
return (containingDeclaration as ClassDescriptor).underlyingRepresentation()?.name == this.name
}