org.jetbrains.kotlin.backend.common.lower.SingleAbstractMethodLowering.kt Maven / Gradle / Ivy
/*
* Copyright 2010-2021 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.common.lower
import org.jetbrains.kotlin.backend.common.CommonBackendContext
import org.jetbrains.kotlin.backend.common.FileLoweringPass
import org.jetbrains.kotlin.backend.common.IrElementTransformerVoidWithContext
import org.jetbrains.kotlin.backend.common.ScopeWithIr
import org.jetbrains.kotlin.descriptors.ClassKind
import org.jetbrains.kotlin.descriptors.DescriptorVisibilities
import org.jetbrains.kotlin.descriptors.DescriptorVisibility
import org.jetbrains.kotlin.descriptors.Modality
import org.jetbrains.kotlin.ir.IrBuiltIns
import org.jetbrains.kotlin.ir.IrElement
import org.jetbrains.kotlin.ir.IrStatement
import org.jetbrains.kotlin.ir.builders.*
import org.jetbrains.kotlin.ir.builders.declarations.*
import org.jetbrains.kotlin.ir.declarations.*
import org.jetbrains.kotlin.ir.expressions.IrExpression
import org.jetbrains.kotlin.ir.expressions.IrGetValue
import org.jetbrains.kotlin.ir.expressions.IrTypeOperator
import org.jetbrains.kotlin.ir.expressions.IrTypeOperatorCall
import org.jetbrains.kotlin.ir.expressions.impl.IrInstanceInitializerCallImpl
import org.jetbrains.kotlin.ir.symbols.IrSymbol
import org.jetbrains.kotlin.ir.types.*
import org.jetbrains.kotlin.ir.util.*
import org.jetbrains.kotlin.name.Name
import org.jetbrains.kotlin.util.OperatorNameConventions
import org.jetbrains.kotlin.utils.findIsInstanceAnd
import org.jetbrains.kotlin.utils.memoryOptimizedMap
import org.jetbrains.kotlin.utils.memoryOptimizedPlus
abstract class SingleAbstractMethodLowering(val context: CommonBackendContext) : FileLoweringPass, IrElementTransformerVoidWithContext() {
// SAM wrappers are cached, either in the file class (if it exists), or in a top-level enclosing class.
// In the latter case, the names of SAM wrappers depend on the order of classes in the file. For example:
//
// class A {
// fun f(run: () -> Unit) = Runnable(run)
// }
//
// class B {
// fun g(run: () -> Unit) = Runnable(run)
// fun h(p: (String) -> Boolean) = Predicate(p)
// }
//
// This code creates two SAM wrappers, `A$sam$java_lang_Runnable$0`, which is used in both
// `A.f` and `B.g`, as well as `B$sam$java_util_function_Predicate$0`, which is used in `B.h`.
//
// Additionally, we need to cache SAM wrappers inside inline functions separately from those
// outside of inline functions. Outside of inline functions we generate package private wrappers
// with name prefix "sam$". In the scope of an inline function we generate public wrappers with
// name prefix "sam$i$".
//
// Coming from the frontend, every SAM interface is associated with exactly one function type
// (see SamType.getKotlinFunctionType). This is why we can cache implementations just based on
// the superType.
protected val cachedImplementations = mutableMapOf()
protected val inlineCachedImplementations = mutableMapOf()
protected var enclosingContainer: IrDeclarationContainer? = null
abstract fun getWrapperVisibility(expression: IrTypeOperatorCall, scopes: List): DescriptorVisibility
abstract fun getSuperTypeForWrapper(typeOperand: IrType): IrType
protected open fun getWrappedFunctionType(klass: IrClass): IrType =
klass.defaultType
protected open fun getSuspendFunctionWithoutContinuation(function: IrSimpleFunction): IrSimpleFunction =
function
protected open fun IrFunctionBuilder.setConstructorSourceRange(createFor: IrElement) {
setSourceRange(createFor)
}
abstract val IrType.needEqualsHashCodeMethods: Boolean
open val inInlineFunctionScope get() = allScopes.any { scope -> (scope.irElement as? IrFunction)?.isInline ?: false }
override fun lower(irFile: IrFile) {
cachedImplementations.clear()
inlineCachedImplementations.clear()
enclosingContainer = irFile.declarations.findIsInstanceAnd { it.isFileClass } ?: irFile
irFile.transformChildrenVoid()
for (wrapper in cachedImplementations.values + inlineCachedImplementations.values) {
val parentClass = wrapper.parent as IrDeclarationContainer
parentClass.declarations += wrapper
}
}
protected open fun currentScopeSymbol(): IrSymbol? {
return currentScope?.scope?.scopeOwnerSymbol
}
override fun visitClassNew(declaration: IrClass): IrStatement {
val prevContainer = enclosingContainer
if (prevContainer == null || prevContainer is IrFile)
enclosingContainer = declaration
super.visitClassNew(declaration)
enclosingContainer = prevContainer
return declaration
}
override fun visitTypeOperator(expression: IrTypeOperatorCall): IrExpression {
if (expression.operator != IrTypeOperator.SAM_CONVERSION)
return super.visitTypeOperator(expression)
// TODO: there must be exactly one wrapper per Java interface; ideally, if the interface has generic
// parameters, so should the wrapper. Currently, we just erase them and generate something that
// erases to the same result at codegen time.
val erasedSuperType = getSuperTypeForWrapper(expression.typeOperand)
val superType = if (expression.typeOperand.isNullable()) erasedSuperType.makeNullable() else erasedSuperType
val invokable = expression.argument.transform(this, null)
context.createIrBuilder(currentScopeSymbol()!!).apply {
// Do not generate a wrapper class for null, it has no invoke() anyway.
if (invokable.isNullConst())
return invokable
val cache = if (inInlineFunctionScope) inlineCachedImplementations else cachedImplementations
val implementation = cache.getOrPut(erasedSuperType) {
createObjectProxy(erasedSuperType, getWrapperVisibility(expression, allScopes), expression)
}
return if (superType.isNullable() && invokable.type.isNullable()) {
irBlock(invokable, null, superType) {
val invokableVariable = createTmpVariable(invokable)
val instance = irCall(implementation.constructors.single()).apply {
putValueArgument(0, irGet(invokableVariable))
}
+irIfNull(superType, irGet(invokableVariable), irNull(), instance)
}
} else if (invokable !is IrGetValue) {
// Hack for the JVM inliner: since the SAM wrappers might be regenerated, avoid putting complex logic
// between the creation of the wrapper and the call of its ``. `MethodInliner` tends to break
// otherwise, e.g. if the argument constructs an anonymous object, resulting in new-new--.
// (See KT-21781 for a similar problem with anonymous object constructor arguments.)
irBlock(invokable, null, superType) {
val invokableVariable = createTmpVariable(invokable)
+irCall(implementation.constructors.single()).apply { putValueArgument(0, irGet(invokableVariable)) }
}
} else {
irCall(implementation.constructors.single()).apply { putValueArgument(0, invokable) }
}
}
}
private val SAM_WRAPPER_SUFFIX = "$0"
private val FUNCTION_FIELD_NAME = "function"
// Construct a class that wraps an invokable object into an implementation of an interface:
// class sam$n(private val invokable: F) : Interface { override fun method(...) = invokable(...) }
private fun createObjectProxy(superType: IrType, wrapperVisibility: DescriptorVisibility, createFor: IrElement): IrClass {
val superClass = superType.classifierOrFail.owner as IrClass
// The language documentation prohibits casting lambdas to classes, but if it was allowed,
// the `irDelegatingConstructorCall` in the constructor below would need to be modified.
assert(superClass.kind == ClassKind.INTERFACE) { "SAM conversion to an abstract class not allowed" }
val superFqName = superClass.fqNameWhenAvailable!!.asString().replace('.', '_')
val inlinePrefix = if (wrapperVisibility == DescriptorVisibilities.PUBLIC) "\$i" else ""
val wrapperName = Name.identifier("sam$inlinePrefix\$$superFqName$SAM_WRAPPER_SUFFIX")
val transformedSuperMethod = superClass.functions.single { it.modality == Modality.ABSTRACT }
val originalSuperMethod = getSuspendFunctionWithoutContinuation(transformedSuperMethod)
val extensionReceiversCount = if (originalSuperMethod.extensionReceiverParameter == null) 0 else 1
// TODO: have psi2ir cast the argument to the correct function type. Also see the TODO
// about type parameters in `visitTypeOperator`.
val wrappedFunctionClass =
if (originalSuperMethod.isSuspend)
context.ir.symbols.suspendFunctionN(originalSuperMethod.valueParameters.size + extensionReceiversCount).owner
else
context.ir.symbols.functionN(originalSuperMethod.valueParameters.size + extensionReceiversCount).owner
val wrappedFunctionType = getWrappedFunctionType(wrappedFunctionClass)
val subclass = context.irFactory.buildClass {
name = wrapperName
origin = IrDeclarationOrigin.GENERATED_SAM_IMPLEMENTATION
visibility = wrapperVisibility
setSourceRange(createFor)
}.apply {
createImplicitParameterDeclarationWithWrappedDescriptor()
superTypes = listOf(superType) memoryOptimizedPlus getAdditionalSupertypes(superType)
parent = enclosingContainer!!
}
val field = subclass.addField {
name = Name.identifier(FUNCTION_FIELD_NAME)
type = wrappedFunctionType
origin = IrDeclarationOrigin.SYNTHETIC_GENERATED_SAM_IMPLEMENTATION
visibility = DescriptorVisibilities.PRIVATE
isFinal = true
setSourceRange(createFor)
}
subclass.addConstructor {
origin = IrDeclarationOrigin.GENERATED_SAM_IMPLEMENTATION
isPrimary = true
visibility = wrapperVisibility
setConstructorSourceRange(createFor)
}.apply {
val parameter = addValueParameter {
name = field.name
type = field.type
origin = subclass.origin
}
body = context.createIrBuilder(symbol).irBlockBody(startOffset, endOffset) {
+irDelegatingConstructorCall(context.irBuiltIns.anyClass.owner.constructors.single())
+irSetField(irGet(subclass.thisReceiver!!), field, irGet(parameter))
+IrInstanceInitializerCallImpl(startOffset, endOffset, subclass.symbol, context.irBuiltIns.unitType)
}
}
subclass.addFunction {
name = originalSuperMethod.name
returnType = originalSuperMethod.returnType
visibility = originalSuperMethod.visibility
modality = Modality.FINAL
origin = IrDeclarationOrigin.SYNTHETIC_GENERATED_SAM_IMPLEMENTATION
isSuspend = originalSuperMethod.isSuspend
setSourceRange(createFor)
}.apply {
overriddenSymbols = listOf(originalSuperMethod.symbol)
dispatchReceiverParameter = subclass.thisReceiver!!.copyTo(this)
extensionReceiverParameter = originalSuperMethod.extensionReceiverParameter?.copyTo(this)
valueParameters = originalSuperMethod.valueParameters.memoryOptimizedMap { it.copyTo(this) }
body = context.createIrBuilder(symbol).irBlockBody {
+irReturn(
irCall(
getSuspendFunctionWithoutContinuation(wrappedFunctionClass.functions.single { it.name == OperatorNameConventions.INVOKE }).symbol,
originalSuperMethod.returnType
).apply {
dispatchReceiver = irGetField(irGet(dispatchReceiverParameter!!), field)
extensionReceiverParameter?.let { putValueArgument(0, irGet(it)) }
valueParameters.forEachIndexed { i, parameter -> putValueArgument(extensionReceiversCount + i, irGet(parameter)) }
})
}
}
if (superType.needEqualsHashCodeMethods)
generateEqualsHashCode(subclass, superType, field)
subclass.addFakeOverrides(
context.typeSystem,
// Built function overrides originalSuperMethod, while, if parent class is already lowered, it would
// transformedSuperMethod in its declaration list. We need not fake override in that case.
// Later lowerings will fix it and replace function with one overriding transformedSuperMethod.
ignoredParentSymbols = listOf(transformedSuperMethod.symbol)
)
return subclass
}
private fun generateEqualsHashCode(klass: IrClass, superType: IrType, functionDelegateField: IrField) =
SamEqualsHashCodeMethodsGenerator(context, klass, superType) { receiver ->
irGetField(receiver, functionDelegateField)
}.generate()
private fun getAdditionalSupertypes(supertype: IrType) =
if (supertype.needEqualsHashCodeMethods)
listOf(context.ir.symbols.functionAdapter.typeWith())
else emptyList()
}
/**
* Generates equals and hashCode for SAM and fun interface wrappers, as well as an implementation of getFunctionDelegate
* (inherited from kotlin.jvm.internal.FunctionAdapter), needed to properly implement them.
* This class is used in two places:
* - FunctionReferenceLowering, which is the case of SAM conversion of a (maybe adapted) function reference, e.g. `FunInterface(foo::bar)`.
* Note that we don't generate equals/hashCode for SAM conversion of lambdas, e.g. `FunInterface {}`, even though lambdas are represented
* as a local function + reference to it. The reason for this is that all lambdas are unique, so after SAM conversion they are still
* never equal to each other. See [FunctionReferenceLowering.FunctionReferenceBuilder.needToGenerateSamEqualsHashCodeMethods].
* - SingleAbstractMethodLowering, which is the case of SAM conversion of any value of a functional type,
* e.g. `val f = {}; FunInterface(f)`.
*/
class SamEqualsHashCodeMethodsGenerator(
private val context: CommonBackendContext,
private val klass: IrClass,
private val samSuperType: IrType,
private val obtainFunctionDelegate: IrBuilderWithScope.(receiver: IrExpression) -> IrExpression,
) {
private val functionAdapterClass = context.ir.symbols.functionAdapter.owner
private val builtIns: IrBuiltIns get() = context.irBuiltIns
private val getFunctionDelegate = functionAdapterClass.functions.single { it.name.asString() == "getFunctionDelegate" }
fun generate() {
generateGetFunctionDelegate()
val anyGenerator = MethodsFromAnyGeneratorForLowerings(context, klass, IrDeclarationOrigin.SYNTHETIC_GENERATED_SAM_IMPLEMENTATION)
generateEquals(anyGenerator)
generateHashCode(anyGenerator)
}
private fun generateGetFunctionDelegate() {
klass.addFunction(getFunctionDelegate.name.asString(), getFunctionDelegate.returnType).apply {
overriddenSymbols = listOf(getFunctionDelegate.symbol)
body = context.createIrBuilder(symbol).run {
irExprBody(obtainFunctionDelegate(irGet(dispatchReceiverParameter!!)))
}
}
}
private fun generateEquals(anyGenerator: MethodsFromAnyGeneratorForLowerings) {
anyGenerator.createEqualsMethodDeclaration().apply {
val other = valueParameters[0]
body = context.createIrBuilder(symbol).run {
irExprBody(
irIfThenElse(
builtIns.booleanType,
irIs(irGet(other), samSuperType),
irIfThenElse(
builtIns.booleanType,
irIs(irGet(other), functionAdapterClass.typeWith()),
irEquals(
irCall(getFunctionDelegate).also {
it.dispatchReceiver = irGet(dispatchReceiverParameter!!)
},
irCall(getFunctionDelegate).also {
it.dispatchReceiver = irImplicitCast(irGet(other), functionAdapterClass.typeWith())
}
),
irFalse()
),
irFalse()
)
)
}
}
}
private fun generateHashCode(anyGenerator: MethodsFromAnyGeneratorForLowerings) {
anyGenerator.createHashCodeMethodDeclaration().apply {
val hashCode = context.irBuiltIns.functionClass.owner.functions.single { it.isHashCode() }.symbol
body = context.createIrBuilder(symbol).run {
irExprBody(
irCall(hashCode).also {
it.dispatchReceiver = irCall(getFunctionDelegate).also {
it.dispatchReceiver = irGet(dispatchReceiverParameter!!)
}
}
)
}
}
}
}
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