org.jetbrains.kotlin.backend.jvm.lower.SingletonReferencesLowering.kt Maven / Gradle / Ivy
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/*
* Copyright 2010-2018 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 org.jetbrains.kotlin.backend.jvm.lower
import org.jetbrains.kotlin.backend.common.FileLoweringPass
import org.jetbrains.kotlin.backend.common.IrElementTransformerVoidWithContext
import org.jetbrains.kotlin.backend.common.pop
import org.jetbrains.kotlin.backend.common.push
import org.jetbrains.kotlin.backend.jvm.JvmBackendContext
import org.jetbrains.kotlin.descriptors.DescriptorVisibilities
import org.jetbrains.kotlin.ir.declarations.*
import org.jetbrains.kotlin.ir.expressions.IrEnumConstructorCall
import org.jetbrains.kotlin.ir.expressions.IrExpression
import org.jetbrains.kotlin.ir.expressions.IrGetEnumValue
import org.jetbrains.kotlin.ir.expressions.IrGetObjectValue
import org.jetbrains.kotlin.ir.expressions.impl.IrGetFieldImpl
import org.jetbrains.kotlin.ir.expressions.impl.IrGetValueImpl
import org.jetbrains.kotlin.ir.types.classOrNull
import org.jetbrains.kotlin.ir.util.isAnonymousObject
import org.jetbrains.kotlin.ir.visitors.transformChildrenVoid
internal class SingletonReferencesLowering(val context: JvmBackendContext) : FileLoweringPass, IrElementTransformerVoidWithContext() {
private val constructingEnums = arrayListOf()
override fun lower(irFile: IrFile) {
irFile.transformChildrenVoid(this)
}
override fun visitEnumConstructorCall(expression: IrEnumConstructorCall): IrExpression {
constructingEnums.push(expression.symbol.owner.parent)
val call = super.visitEnumConstructorCall(expression)
constructingEnums.pop()
return call
}
override fun visitGetEnumValue(expression: IrGetEnumValue): IrExpression {
val candidate = expression.symbol.owner.correspondingClass
val appropriateThis = thisOfClass(candidate)
return if (candidate != null && appropriateThis != null && isThisAccessible(candidate) && !isVisitingSuperConstructor(candidate)) {
// Replace `SomeEnumClass.SomeEnumEntry` with `this`, if possible.
//
// SomeEnumEntry is a singleton, which is assigned (SETFIELD) to SomeEnumClass after the construction of the singleton is done.
// Therefore, during the construction of SomeEnumEntry, SomeEnumClass.SomeEnumEntry isn't available yet. All references to it
// must be replaced with `SomeEnumEntry.this`.
IrGetValueImpl(expression.startOffset, expression.endOffset, expression.type, appropriateThis.symbol)
} else {
val entrySymbol = context.cachedDeclarations.getFieldForEnumEntry(expression.symbol.owner)
IrGetFieldImpl(expression.startOffset, expression.endOffset, entrySymbol.symbol, expression.type)
}
}
private fun isThisAccessible(irClass: IrClass): Boolean {
for (scope in allScopes.asReversed()) {
when (val irScopeElement = scope.irElement) {
irClass ->
return true
is IrClass ->
if (!irScopeElement.isInner && !irScopeElement.isAnonymousObject)
return false
is IrField ->
if (irScopeElement.isStatic)
return false
is IrFunction ->
if (irScopeElement.dispatchReceiverParameter == null && irScopeElement.visibility != DescriptorVisibilities.LOCAL)
return false
}
}
return false
}
override fun visitGetObjectValue(expression: IrGetObjectValue): IrExpression {
val instanceField = if (allScopes.any { it.irElement == expression.symbol.owner })
context.cachedDeclarations.getPrivateFieldForObjectInstance(expression.symbol.owner) // Constructor or static method.
else
context.cachedDeclarations.getFieldForObjectInstance(expression.symbol.owner) // Not in object scope at all.
return IrGetFieldImpl(expression.startOffset, expression.endOffset, instanceField.symbol, expression.type)
}
// `this` is generally available while the reference is within the lexical scope of the containing class.
private fun thisOfClass(declaration: IrClass?, allowConstructorReceiver: Boolean = true): IrValueParameter? {
if (declaration == null) return null
for (scope in allScopes.reversed()) {
when (val element = scope.irElement) {
is IrFunction ->
element.dispatchReceiverParameter?.let { if (it.type.classOrNull == declaration.symbol) return it }
is IrClass -> if (allowConstructorReceiver && element == declaration) return element.thisReceiver
}
}
return null
}
// `this` isn't usable before `super.`. Consider the example,
//
// 1: enum class Test(val x: String, val closure1: () -> String) {
// 2: FOO("O", { FOO.x }) {
// 3: val y: String = run { FOO.x }
// 4: };
// 5: }
//
// The constructing sequence would look like the following, if the reference was lowered to `this`:
//
// FOO.(this) {
// val lambda1 = new lambda_in_line_1_type
// lambda_in_line_1_type.(lambda1, this)
// Test.(this, "O", lambda1)
// ...
// val lambda3 = new lambda_in_line_3_type
// lambda_in_line_3_type.(lambda3, this)
// }
//
// Before and after `Test.`, the type of `this` is `uninitializedThis` and `Test`, respectively. Therefore, passing `this` to
// `lambda_containing_foo_x_type.` results in a type mismatch. Passing `this` to `lambda_containing_foo_y_type.` is fine.
//
// Assumptions:
// 1. An enum entry's declaration parent is always the enum class.
// 2. Enums are constructed in , so there's no interleaving constructor calls from unrelated enums.
private fun isVisitingSuperConstructor(irClass: IrClass) = irClass.parent == constructingEnums.lastOrNull()
}