org.jetbrains.kotlin.backend.jvm.lower.InterfaceLowering.kt Maven / Gradle / Ivy
/*
* Copyright 2010-2019 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.ClassLoweringPass
import org.jetbrains.kotlin.backend.common.ir.moveBodyTo
import org.jetbrains.kotlin.backend.jvm.JvmBackendContext
import org.jetbrains.kotlin.backend.jvm.JvmLoweredDeclarationOrigin
import org.jetbrains.kotlin.backend.jvm.ir.*
import org.jetbrains.kotlin.config.JvmDefaultMode
import org.jetbrains.kotlin.descriptors.ClassKind
import org.jetbrains.kotlin.descriptors.DescriptorVisibilities
import org.jetbrains.kotlin.descriptors.Modality
import org.jetbrains.kotlin.ir.declarations.*
import org.jetbrains.kotlin.ir.expressions.IrCall
import org.jetbrains.kotlin.ir.expressions.IrExpression
import org.jetbrains.kotlin.ir.expressions.IrFunctionReference
import org.jetbrains.kotlin.ir.expressions.IrReturn
import org.jetbrains.kotlin.ir.expressions.impl.*
import org.jetbrains.kotlin.ir.symbols.IrSimpleFunctionSymbol
import org.jetbrains.kotlin.ir.types.defaultType
import org.jetbrains.kotlin.ir.util.*
import org.jetbrains.kotlin.ir.visitors.IrElementTransformerVoid
import org.jetbrains.kotlin.ir.visitors.transformChildrenVoid
/**
* This phase moves interface members with default implementations to the
* associated companion DefaultImpls with bridges, as appropriate. It then
* performs a traversal of any other code in this interface and redirects calls
* to the interface to the companion, if functions were moved completely.
*/
internal class InterfaceLowering(val context: JvmBackendContext) : IrElementTransformerVoid(), ClassLoweringPass {
private val removedFunctions = hashMapOf()
private val removedFunctionsWithoutRemapping = mutableSetOf()
override fun lower(irClass: IrClass) {
if (!irClass.isJvmInterface) return
when (irClass.kind) {
ClassKind.INTERFACE -> handleInterface(irClass)
ClassKind.ANNOTATION_CLASS -> handleAnnotationClass(irClass)
else -> return
}
irClass.declarations.removeAll {
it is IrFunction && (removedFunctions.containsKey(it.symbol) || removedFunctionsWithoutRemapping.contains(it.symbol))
}
val defaultImplsIrClass = context.cachedDeclarations.getDefaultImplsClass(irClass)
if (defaultImplsIrClass.declarations.isNotEmpty()) {
irClass.declarations.add(defaultImplsIrClass)
}
// Update IrElements (e.g., IrCalls) to point to the new functions.
irClass.transformChildrenVoid(this)
}
private fun handleInterface(irClass: IrClass) {
val jvmDefaultMode = context.config.jvmDefaultMode
val isCompatibilityMode =
(jvmDefaultMode.isCompatibility && !irClass.hasJvmDefaultNoCompatibilityAnnotation()) ||
(jvmDefaultMode == JvmDefaultMode.ALL_INCOMPATIBLE && irClass.hasJvmDefaultWithCompatibilityAnnotation())
// There are 6 cases for functions on interfaces:
for (function in irClass.functions) {
when {
/**
* 1) They are plain abstract interface functions, in which case we leave them:
*/
function.modality == Modality.ABSTRACT ->
continue
/**
* 2) They inherit a default implementation from an interface this interface extends:
* create a bridge from DefaultImpls of derived to DefaultImpls of base, unless
* - the implementation is private, or belongs to java.lang.Object,
* or is a stub for function with default parameters ($default)
* - we're in -Xjvm-default=all-compatibility mode, in which case we go via
* accessors on the parent class rather than the DefaultImpls if inherited method is compiled to JVM default
* - we're in -Xjvm-default=all mode, and we have that default implementation, in which case we simply leave it.
*
* ```
* interface A { fun foo() = 0 }
* interface B : A { }
* ```
*
* yields
*
* ```
* interface A { fun foo(); class DefaultImpls { fun foo() = 0 } } // !! by Case 4 !!
* interface B : A { class DefaultImpls { fun foo() = A.DefaultImpls.foo() } }
* ```
*/
function.isFakeOverride -> {
// We check to see if this is a default stub function BEFORE finding the implementation because of a front-end bug
// (KT-36188) where there could be multiple implementations. (resolveFakeOverride() only returns the implementation if
// there's only one.)
if (function.name.asString().endsWith("\$default")) {
continue
}
val implementation = function.resolveFakeOverride() ?: error("No single implementation found for: ${function.render()}")
when {
DescriptorVisibilities.isPrivate(implementation.visibility) || implementation.isMethodOfAny() ->
continue
!function.isDefinitelyNotDefaultImplsMethod(jvmDefaultMode, implementation) -> {
val defaultImpl = createDefaultImpl(function)
val superImpl = firstSuperMethodFromKotlin(function, implementation)
context.cachedDeclarations.getDefaultImplsFunction(superImpl.owner).also {
defaultImpl.bridgeToStatic(it)
}
}
isCompatibilityMode && implementation.isCompiledToJvmDefault(jvmDefaultMode) -> {
createJvmDefaultCompatibilityDelegate(function)
}
}
}
/**
* 3) Private methods (not compiled to JVM defaults), default parameter dispatchers (not compiled to JVM defaults)
* and $annotation methods are always moved without bridges
*/
(!function.isCompiledToJvmDefault(jvmDefaultMode) && (DescriptorVisibilities.isPrivate(function.visibility)
|| function.origin == IrDeclarationOrigin.FUNCTION_FOR_DEFAULT_PARAMETER
|| function.origin == JvmLoweredDeclarationOrigin.SYNTHETIC_METHOD_FOR_PROPERTY_OR_TYPEALIAS_ANNOTATIONS)) ||
(function.origin == JvmLoweredDeclarationOrigin.SYNTHETIC_METHOD_FOR_PROPERTY_OR_TYPEALIAS_ANNOTATIONS &&
(isCompatibilityMode || jvmDefaultMode == JvmDefaultMode.ENABLE) &&
function.isCompiledToJvmDefault(jvmDefaultMode)) -> {
if (function.origin == JvmLoweredDeclarationOrigin.INLINE_LAMBDA) {
//move as is
val defaultImplsClass = context.cachedDeclarations.getDefaultImplsClass(irClass)
defaultImplsClass.declarations.add(function)
removedFunctionsWithoutRemapping.add(function.symbol)
function.parent = defaultImplsClass
} else {
val defaultImpl = createDefaultImpl(function)
defaultImpl.body = function.moveBodyTo(defaultImpl)
removedFunctions[function.symbol] = defaultImpl.symbol
}
}
/**
* 4) Non JVM default implementation with body is moved to DefaultImpls and
* an abstract stub is left.
*/
!function.isCompiledToJvmDefault(jvmDefaultMode) -> {
val defaultImpl = createDefaultImpl(function)
defaultImpl.body = function.moveBodyTo(defaultImpl)
function.body = null
//TODO reset modality to abstract
}
/**
* 5) JVM default declaration is bridged in DefaultImpls via accessor if in compatibility mode, ...
*/
isCompatibilityMode -> {
val visibility =
if (function.origin == IrDeclarationOrigin.FUNCTION_FOR_DEFAULT_PARAMETER)
context.mapping.defaultArgumentsOriginalFunction[function]!!.visibility
else function.visibility
if (!DescriptorVisibilities.isPrivate(visibility)) {
createJvmDefaultCompatibilityDelegate(function)
}
}
// 6) ... otherwise we simply leave the default function implementation on the interface.
}
}
val defaultImplsIrClass = context.cachedDeclarations.getDefaultImplsClass(irClass)
// Move $$delegatedProperties array and $assertionsDisabled field
for (field in irClass.declarations.filterIsInstance()) {
if ((jvmDefaultMode.forAllMethodsWithBody || field.origin != JvmLoweredDeclarationOrigin.GENERATED_PROPERTY_REFERENCE) &&
field.origin != JvmLoweredDeclarationOrigin.GENERATED_ASSERTION_ENABLED_FIELD
)
continue
irClass.declarations.remove(field)
defaultImplsIrClass.declarations.add(0, field)
field.parent = defaultImplsIrClass
}
}
private fun createJvmDefaultCompatibilityDelegate(function: IrSimpleFunction) {
val defaultImpl = createDefaultImpl(function, true)
defaultImpl.bridgeViaAccessorTo(function)
}
private fun handleAnnotationClass(irClass: IrClass) {
// We produce $DefaultImpls for annotation classes only to move $annotations methods (for property annotations) there.
val annotationsMethods =
irClass.functions.filter { it.origin == JvmLoweredDeclarationOrigin.SYNTHETIC_METHOD_FOR_PROPERTY_OR_TYPEALIAS_ANNOTATIONS }
if (annotationsMethods.none()) return
for (function in annotationsMethods) {
val defaultImpl = createDefaultImpl(function)
defaultImpl.body = function.moveBodyTo(defaultImpl)
removedFunctions[function.symbol] = defaultImpl.symbol
}
}
private fun createDefaultImpl(function: IrSimpleFunction, forCompatibility: Boolean = false): IrSimpleFunction =
context.cachedDeclarations.getDefaultImplsFunction(function, forCompatibility).also { newFunction ->
newFunction.parentAsClass.declarations.add(newFunction)
}
// Bridge from static to static method - simply fill the function arguments to the parameters.
// By nature of the generation of both source and target of bridge, they line up.
private fun IrFunction.bridgeToStatic(callTarget: IrSimpleFunction) {
body = IrExpressionBodyImpl(IrCallImpl.fromSymbolOwner(startOffset, endOffset, returnType, callTarget.symbol).also { call ->
callTarget.typeParameters.forEachIndexed { i, _ ->
call.putTypeArgument(i, createPlaceholderAnyNType(context.irBuiltIns))
}
valueParameters.forEachIndexed { i, it ->
call.putValueArgument(i, IrGetValueImpl(startOffset, endOffset, it.symbol))
}
})
}
// Bridge from static DefaultImpl method to the interface method. Arguments need to
// be shifted in presence of dispatch and extension receiver.
private fun IrFunction.bridgeViaAccessorTo(callTarget: IrSimpleFunction) {
body = IrExpressionBodyImpl(
IrCallImpl.fromSymbolOwner(
startOffset,
endOffset,
returnType,
callTarget.symbol,
superQualifierSymbol = callTarget.parentAsClass.symbol
).also { call ->
this.typeParameters.drop(callTarget.parentAsClass.typeParameters.size).forEachIndexed { i, typeParameter ->
call.putTypeArgument(i, typeParameter.defaultType)
}
var offset = 0
callTarget.dispatchReceiverParameter?.let {
call.dispatchReceiver = IrGetValueImpl(startOffset, endOffset, valueParameters[offset].symbol)
offset += 1
}
callTarget.extensionReceiverParameter?.let {
call.extensionReceiver = IrGetValueImpl(startOffset, endOffset, valueParameters[offset].symbol)
offset += 1
}
for (i in offset until valueParameters.size) {
call.putValueArgument(i - offset, IrGetValueImpl(startOffset, endOffset, valueParameters[i].symbol))
}
})
}
override fun visitReturn(expression: IrReturn): IrExpression {
val newFunction = removedFunctions[expression.returnTargetSymbol]?.owner
return super.visitReturn(
if (newFunction != null) {
with(expression) {
IrReturnImpl(startOffset, endOffset, type, newFunction.symbol, value)
}
} else {
expression
}
)
}
override fun visitCall(expression: IrCall): IrExpression {
val newFunction = removedFunctions[expression.symbol]?.owner
return super.visitCall(
if (newFunction != null) {
createDelegatingCallWithPlaceholderTypeArguments(expression, newFunction, context.irBuiltIns)
} else {
expression
}
)
}
override fun visitFunctionReference(expression: IrFunctionReference): IrExpression {
val newFunction = removedFunctions[expression.symbol]?.owner
return super.visitFunctionReference(
if (newFunction != null) {
with(expression) {
IrFunctionReferenceImpl(
startOffset, endOffset, type, newFunction.symbol, newFunction.typeParameters.size, newFunction.valueParameters.size,
expression.reflectionTarget, origin
).apply {
copyFromWithPlaceholderTypeArguments(expression, context.irBuiltIns)
copyAttributes(expression)
}
}
} else {
expression
}
)
}
}
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