org.jetbrains.kotlin.backend.jvm.JvmCachedDeclarations.kt Maven / Gradle / Ivy
Go to download
Show more of this group Show more artifacts with this name
Show all versions of kotlin-compiler-embeddable Show documentation
Show all versions of kotlin-compiler-embeddable Show documentation
the Kotlin compiler embeddable
/*
* Copyright 2010-2020 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
import org.jetbrains.kotlin.backend.common.lower.createIrBuilder
import org.jetbrains.kotlin.backend.jvm.ir.copyCorrespondingPropertyFrom
import org.jetbrains.kotlin.backend.jvm.ir.createJvmIrBuilder
import org.jetbrains.kotlin.backend.jvm.ir.isJvmInterface
import org.jetbrains.kotlin.backend.jvm.ir.replaceThisByStaticReference
import org.jetbrains.kotlin.builtins.CompanionObjectMapping
import org.jetbrains.kotlin.builtins.StandardNames
import org.jetbrains.kotlin.builtins.isMappedIntrinsicCompanionObjectClassId
import org.jetbrains.kotlin.config.LanguageFeature
import org.jetbrains.kotlin.config.LanguageVersionSettings
import org.jetbrains.kotlin.descriptors.ClassKind
import org.jetbrains.kotlin.descriptors.DescriptorVisibilities
import org.jetbrains.kotlin.descriptors.Modality
import org.jetbrains.kotlin.ir.builders.*
import org.jetbrains.kotlin.ir.builders.declarations.*
import org.jetbrains.kotlin.ir.declarations.*
import org.jetbrains.kotlin.ir.types.typeWith
import org.jetbrains.kotlin.ir.util.*
import org.jetbrains.kotlin.load.java.JavaDescriptorVisibilities
import org.jetbrains.kotlin.load.java.JvmAbi
import org.jetbrains.kotlin.name.Name
import org.jetbrains.kotlin.resolve.deprecation.DeprecationResolver
import java.util.concurrent.ConcurrentHashMap
class JvmCachedDeclarations(
private val context: JvmBackendContext,
val fieldsForObjectInstances: CachedFieldsForObjectInstances,
) {
val syntheticAccessorGenerator = JvmSyntheticAccessorGenerator(context)
private val singletonFieldDeclarations = ConcurrentHashMap()
private val staticBackingFields = ConcurrentHashMap()
private val staticCompanionDeclarations = ConcurrentHashMap>()
private val defaultImplsMethods = ConcurrentHashMap()
private val defaultImplsClasses = ConcurrentHashMap()
private val defaultImplsRedirections = ConcurrentHashMap()
private val defaultImplsOriginalMethods = ConcurrentHashMap()
private val repeatedAnnotationSyntheticContainers = ConcurrentHashMap()
fun getFieldForEnumEntry(enumEntry: IrEnumEntry): IrField =
singletonFieldDeclarations.getOrPut(enumEntry) {
context.irFactory.buildField {
setSourceRange(enumEntry)
name = enumEntry.name
type = enumEntry.parentAsClass.defaultType
origin = IrDeclarationOrigin.FIELD_FOR_ENUM_ENTRY
isFinal = true
isStatic = true
}.apply {
parent = enumEntry.parent
}
}
fun getFieldForObjectInstance(singleton: IrClass): IrField = fieldsForObjectInstances.getFieldForObjectInstance(singleton)
fun getPrivateFieldForObjectInstance(singleton: IrClass): IrField = fieldsForObjectInstances.getPrivateFieldForObjectInstance(singleton)
fun getStaticBackingField(irProperty: IrProperty): IrField? {
// Only fields defined directly in objects should be made static.
// Fake overrides never point to those, as objects are final.
if (irProperty.isFakeOverride) return null
val oldField = irProperty.backingField ?: return null
val oldParent = irProperty.parent as? IrClass ?: return null
if (!oldParent.isObject) return null
return staticBackingFields.getOrPut(irProperty) {
context.irFactory.buildField {
updateFrom(oldField)
name = oldField.name
isStatic = true
}.apply {
// We don't move fields to interfaces unless all fields are annotated with @JvmField.
// It is an error to annotate only some of the fields of an interface companion with
// @JvmField, so checking the current field only should be enough.
val hasJvmField = oldField.hasAnnotation(JvmAbi.JVM_FIELD_ANNOTATION_FQ_NAME)
val shouldMoveFields = oldParent.isCompanion && (!oldParent.parentAsClass.isJvmInterface || hasJvmField)
if (shouldMoveFields) {
parent = oldParent.parentAsClass
val isPrivate = DescriptorVisibilities.isPrivate(oldField.visibility)
val parentIsPrivate = DescriptorVisibilities.isPrivate(oldParent.visibility)
annotations = if (parentIsPrivate && !isPrivate) {
context.createJvmIrBuilder(this.symbol).run {
filterOutAnnotations(
DeprecationResolver.JAVA_DEPRECATED,
oldField.annotations
) + irCall(irSymbols.javaLangDeprecatedConstructorWithDeprecatedFlag)
}
} else {
oldField.annotations
}
} else {
parent = oldParent
annotations = oldField.annotations
}
initializer = oldField.initializer?.patchDeclarationParents(this)
oldField.replaceThisByStaticReference(fieldsForObjectInstances, oldParent, oldParent.thisReceiver!!)
origin = if (irProperty.parentAsClass.isCompanion) JvmLoweredDeclarationOrigin.COMPANION_PROPERTY_BACKING_FIELD else origin
}
}
}
fun getStaticAndCompanionDeclaration(jvmStaticFunction: IrSimpleFunction): Pair =
staticCompanionDeclarations.getOrPut(jvmStaticFunction) {
val companion = jvmStaticFunction.parentAsClass
assert(companion.isCompanion)
if (jvmStaticFunction.isExternal) {
// We move external functions to the enclosing class and potentially add accessors there.
// The JVM backend also adds accessors in the companion object, but these are superfluous.
val staticExternal = context.irFactory.buildFun {
updateFrom(jvmStaticFunction)
name = jvmStaticFunction.name
returnType = jvmStaticFunction.returnType
}.apply {
parent = companion.parent
copyAttributes(jvmStaticFunction)
copyAnnotationsFrom(jvmStaticFunction)
copyCorrespondingPropertyFrom(jvmStaticFunction)
copyParameterDeclarationsFrom(jvmStaticFunction)
dispatchReceiverParameter = null
metadata = jvmStaticFunction.metadata
}
staticExternal to companion.makeProxy(staticExternal, isStatic = false)
} else {
companion.parentAsClass.makeProxy(jvmStaticFunction, isStatic = true) to jvmStaticFunction
}
}
private fun IrClass.makeProxy(target: IrSimpleFunction, isStatic: Boolean) =
context.irFactory.buildFun {
setSourceRange(target)
returnType = target.returnType
origin = JvmLoweredDeclarationOrigin.JVM_STATIC_WRAPPER
// The proxy needs to have the same name as what it is targeting. If that is a property accessor,
// we need to make sure that the name is mapped correctly. The static method is not a property accessor,
// so we do not have a property to link it up to. Therefore, we compute the right name now.
name = Name.identifier(context.defaultMethodSignatureMapper.mapFunctionName(target))
modality = if (isInterface) Modality.OPEN else target.modality
// Since we already mangle the name above we need to reset internal visibilities to public in order
// to avoid mangling the same name twice.
visibility = when (target.visibility) {
DescriptorVisibilities.INTERNAL ->
DescriptorVisibilities.PUBLIC
DescriptorVisibilities.PROTECTED -> {
// Required to properly create accessors to protected static companion object member
// when this member is referenced in subclass.
if (isStatic)
JavaDescriptorVisibilities.PROTECTED_STATIC_VISIBILITY
else
DescriptorVisibilities.PROTECTED
}
else ->
target.visibility
}
isSuspend = target.isSuspend
}.apply proxy@{
parent = this@makeProxy
copyAttributes(target)
copyTypeParametersFrom(target)
copyAnnotationsFrom(target)
if (!isStatic) {
dispatchReceiverParameter = thisReceiver?.copyTo(this, type = defaultType)
}
extensionReceiverParameter = target.extensionReceiverParameter?.copyTo(this)
valueParameters = target.valueParameters.map { it.copyTo(this) }
body = context.createIrBuilder(symbol).run {
irExprBody(irCall(target).apply {
passTypeArgumentsFrom(this@proxy)
if (target.dispatchReceiverParameter != null) {
dispatchReceiver = irGetField(null, getFieldForObjectInstance(target.parentAsClass))
}
extensionReceiverParameter?.let { extensionReceiver = irGet(it) }
for ((i, valueParameter) in valueParameters.withIndex()) {
putValueArgument(i, irGet(valueParameter))
}
})
}
}
fun getDefaultImplsFunction(interfaceFun: IrSimpleFunction, forCompatibilityMode: Boolean = false): IrSimpleFunction {
val parent = interfaceFun.parentAsClass
assert(parent.isJvmInterface) { "Parent of ${interfaceFun.dump()} should be interface" }
assert(!forCompatibilityMode || !defaultImplsMethods.containsKey(interfaceFun)) { "DefaultImpls stub in compatibility mode should be requested only once from interface lowering: ${interfaceFun.dump()}" }
return defaultImplsMethods.getOrPut(interfaceFun) {
val defaultImpls = getDefaultImplsClass(interfaceFun.parentAsClass)
// If `interfaceFun` is not a real implementation, then we're generating stubs in a descendant
// interface's DefaultImpls. For example,
//
// interface I1 { fun f() { ... } }
// interface I2 : I1
//
// is supposed to allow using `I2.DefaultImpls.f` as if it was inherited from `I1.DefaultImpls`.
// The classes are not actually related and `I2.DefaultImpls.f` is not a fake override but a bridge.
val defaultImplsOrigin =
if (!forCompatibilityMode && !interfaceFun.isFakeOverride) interfaceFun.origin
else interfaceFun.resolveFakeOverrideOrFail().origin
// Interface functions are public or private, with one exception: clone in Cloneable, which is protected.
// However, Cloneable has no DefaultImpls, so this merely replicates the incorrect behavior of the old backend.
// We should rather not generate a bridge to clone when interface inherits from Cloneable at all.
val defaultImplsVisibility =
if (DescriptorVisibilities.isPrivate(interfaceFun.visibility))
DescriptorVisibilities.PRIVATE
else
DescriptorVisibilities.PUBLIC
context.irFactory.createStaticFunctionWithReceivers(
defaultImpls, interfaceFun.name, interfaceFun,
dispatchReceiverType = parent.defaultType,
origin = defaultImplsOrigin,
// Old backend doesn't generate ACC_FINAL on DefaultImpls methods.
modality = Modality.OPEN,
visibility = defaultImplsVisibility,
isFakeOverride = false,
typeParametersFromContext = parent.typeParameters,
remapMultiFieldValueClassStructure = context::remapMultiFieldValueClassStructure
).also {
it.copyCorrespondingPropertyFrom(interfaceFun)
if (forCompatibilityMode && !interfaceFun.resolveFakeOverrideOrFail().origin.isSynthetic) {
context.createJvmIrBuilder(it.symbol).run {
it.annotations = it.annotations
.filterNot { it.symbol.owner.constructedClass.hasEqualFqName(DeprecationResolver.JAVA_DEPRECATED) }
.plus(irCall(irSymbols.javaLangDeprecatedConstructorWithDeprecatedFlag))
}
}
defaultImplsOriginalMethods[it] = interfaceFun
}
}
}
fun getOriginalFunctionForDefaultImpl(defaultImplFun: IrSimpleFunction) =
defaultImplsOriginalMethods[defaultImplFun]
fun getDefaultImplsClass(interfaceClass: IrClass): IrClass =
defaultImplsClasses.getOrPut(interfaceClass) {
context.irFactory.buildClass {
startOffset = interfaceClass.startOffset
endOffset = interfaceClass.endOffset
origin = JvmLoweredDeclarationOrigin.DEFAULT_IMPLS
name = Name.identifier(JvmAbi.DEFAULT_IMPLS_CLASS_NAME)
}.apply {
parent = interfaceClass
createImplicitParameterDeclarationWithWrappedDescriptor()
}
}
fun getDefaultImplsRedirection(fakeOverride: IrSimpleFunction): IrSimpleFunction =
defaultImplsRedirections.getOrPut(fakeOverride) {
assert(fakeOverride.isFakeOverride)
val irClass = fakeOverride.parentAsClass
val redirectFunction = context.irFactory.buildFun {
origin = JvmLoweredDeclarationOrigin.SUPER_INTERFACE_METHOD_BRIDGE
name = fakeOverride.name
visibility = fakeOverride.visibility
modality = fakeOverride.modality
returnType = fakeOverride.returnType
isInline = fakeOverride.isInline
isExternal = false
isTailrec = false
isSuspend = fakeOverride.isSuspend
isOperator = fakeOverride.isOperator
isInfix = fakeOverride.isInfix
isExpect = false
isFakeOverride = false
}.apply {
parent = irClass
overriddenSymbols = fakeOverride.overriddenSymbols
copyParameterDeclarationsFrom(fakeOverride)
// The fake override's dispatch receiver has the same type as the real declaration's,
// i.e. some superclass of the current class. This is not good for accessibility checks.
dispatchReceiverParameter?.type = irClass.defaultType
annotations = fakeOverride.annotations
copyCorrespondingPropertyFrom(fakeOverride)
}
context.remapMultiFieldValueClassStructure(fakeOverride, redirectFunction, parametersMappingOrNull = null)
redirectFunction
}
fun getRepeatedAnnotationSyntheticContainer(annotationClass: IrClass): IrClass =
repeatedAnnotationSyntheticContainers.getOrPut(annotationClass) {
val containerClass = context.irFactory.buildClass {
kind = ClassKind.ANNOTATION_CLASS
name = Name.identifier(JvmAbi.REPEATABLE_ANNOTATION_CONTAINER_NAME)
}.apply {
createImplicitParameterDeclarationWithWrappedDescriptor()
parent = annotationClass
superTypes = listOf(context.irBuiltIns.annotationType)
}
val propertyName = Name.identifier("value")
val propertyType = context.irBuiltIns.arrayClass.typeWith(annotationClass.typeWith())
containerClass.addConstructor {
isPrimary = true
}.apply {
addValueParameter(propertyName, propertyType)
}
containerClass.addProperty {
name = propertyName
}.apply property@{
backingField = context.irFactory.buildField {
name = propertyName
type = propertyType
}.apply {
parent = containerClass
correspondingPropertySymbol = [email protected]
}
addDefaultGetter(containerClass, context.irBuiltIns)
}
containerClass.annotations = annotationClass.annotations
.filter {
it.isAnnotationWithEqualFqName(StandardNames.FqNames.retention) ||
it.isAnnotationWithEqualFqName(StandardNames.FqNames.target)
}
.map { it.deepCopyWithSymbols(containerClass) } +
context.createJvmIrBuilder(containerClass.symbol).irCall(context.ir.symbols.repeatableContainer.constructors.single())
containerClass
}
}
/*
This class keeps track of singleton fields for instances of object classes.
*/
class CachedFieldsForObjectInstances(
private val irFactory: IrFactory,
private val languageVersionSettings: LanguageVersionSettings,
) {
private val singletonFieldDeclarations = ConcurrentHashMap()
private val interfaceCompanionFieldDeclarations = ConcurrentHashMap()
fun getFieldForObjectInstance(singleton: IrClass): IrField =
singletonFieldDeclarations.getOrPut(singleton) {
val originalVisibility = singleton.visibility
val isNotMappedCompanion = singleton.isCompanion && !singleton.isMappedIntrinsicCompanionObject()
val useProperVisibilityForCompanion =
languageVersionSettings.supportsFeature(LanguageFeature.ProperVisibilityForCompanionObjectInstanceField)
&& singleton.isCompanion
&& !singleton.parentAsClass.isInterface
irFactory.buildField {
name = if (isNotMappedCompanion) singleton.name else Name.identifier(JvmAbi.INSTANCE_FIELD)
type = singleton.defaultType
origin = IrDeclarationOrigin.FIELD_FOR_OBJECT_INSTANCE
isFinal = true
isStatic = true
visibility = when {
!useProperVisibilityForCompanion -> DescriptorVisibilities.PUBLIC
originalVisibility == DescriptorVisibilities.PROTECTED -> JavaDescriptorVisibilities.PROTECTED_STATIC_VISIBILITY
else -> originalVisibility
}
}.apply {
parent = if (isNotMappedCompanion) singleton.parent else singleton
}
}
private fun IrClass.isMappedIntrinsicCompanionObject() =
isCompanion && classId?.let { CompanionObjectMapping.isMappedIntrinsicCompanionObjectClassId(it) } == true
fun getPrivateFieldForObjectInstance(singleton: IrClass): IrField =
if (singleton.isCompanion && singleton.parentAsClass.isJvmInterface)
interfaceCompanionFieldDeclarations.getOrPut(singleton) {
irFactory.buildField {
name = Name.identifier("\$\$INSTANCE")
type = singleton.defaultType
origin = JvmLoweredDeclarationOrigin.INTERFACE_COMPANION_PRIVATE_INSTANCE
isFinal = true
isStatic = true
visibility = JavaDescriptorVisibilities.PACKAGE_VISIBILITY
}.apply {
parent = singleton
}
}
else
getFieldForObjectInstance(singleton)
}