org.jetbrains.kotlin.fir.java.enhancement.SignatureEnhancement.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 2010-2023 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.fir.java.enhancement
import org.jetbrains.kotlin.KtFakeSourceElementKind
import org.jetbrains.kotlin.KtSourceElement
import org.jetbrains.kotlin.builtins.StandardNames.DEFAULT_VALUE_PARAMETER
import org.jetbrains.kotlin.config.LanguageVersion
import org.jetbrains.kotlin.descriptors.ClassKind
import org.jetbrains.kotlin.descriptors.Modality
import org.jetbrains.kotlin.fakeElement
import org.jetbrains.kotlin.fir.*
import org.jetbrains.kotlin.fir.caches.FirCache
import org.jetbrains.kotlin.fir.caches.FirCachesFactory
import org.jetbrains.kotlin.fir.caches.createCache
import org.jetbrains.kotlin.fir.caches.firCachesFactory
import org.jetbrains.kotlin.fir.declarations.*
import org.jetbrains.kotlin.fir.declarations.builder.*
import org.jetbrains.kotlin.fir.declarations.impl.FirDeclarationStatusImpl
import org.jetbrains.kotlin.fir.declarations.impl.FirResolvedDeclarationStatusImpl
import org.jetbrains.kotlin.fir.declarations.synthetic.FirSyntheticProperty
import org.jetbrains.kotlin.fir.declarations.synthetic.buildSyntheticProperty
import org.jetbrains.kotlin.fir.declarations.utils.*
import org.jetbrains.kotlin.fir.diagnostics.ConeSimpleDiagnostic
import org.jetbrains.kotlin.fir.expressions.FirAnnotation
import org.jetbrains.kotlin.fir.expressions.FirLiteralExpression
import org.jetbrains.kotlin.fir.expressions.unexpandedClassId
import org.jetbrains.kotlin.fir.java.FirJavaFacade
import org.jetbrains.kotlin.fir.java.FirJavaTypeConversionMode
import org.jetbrains.kotlin.fir.java.JavaTypeParameterStack
import org.jetbrains.kotlin.fir.java.declarations.FirJavaClass
import org.jetbrains.kotlin.fir.java.declarations.FirJavaConstructor
import org.jetbrains.kotlin.fir.java.declarations.FirJavaExternalAnnotation
import org.jetbrains.kotlin.fir.java.declarations.FirJavaField
import org.jetbrains.kotlin.fir.java.declarations.FirJavaMethod
import org.jetbrains.kotlin.fir.java.declarations.FirJavaTypeParameter
import org.jetbrains.kotlin.fir.java.declarations.buildJavaField
import org.jetbrains.kotlin.fir.java.symbols.FirJavaOverriddenSyntheticPropertySymbol
import org.jetbrains.kotlin.fir.java.toConeKotlinTypeProbablyFlexible
import org.jetbrains.kotlin.fir.resolve.providers.symbolProvider
import org.jetbrains.kotlin.fir.resolve.substitution.ConeSubstitutor
import org.jetbrains.kotlin.fir.resolve.substitution.ConeSubstitutorByMap
import org.jetbrains.kotlin.fir.scopes.CallableCopyTypeCalculator
import org.jetbrains.kotlin.fir.scopes.DeferredCallableCopyReturnType
import org.jetbrains.kotlin.fir.scopes.deferredCallableCopyReturnType
import org.jetbrains.kotlin.fir.scopes.jvm.computeJvmDescriptor
import org.jetbrains.kotlin.fir.symbols.ConeClassLikeLookupTag
import org.jetbrains.kotlin.fir.symbols.ConeTypeParameterLookupTag
import org.jetbrains.kotlin.fir.symbols.impl.*
import org.jetbrains.kotlin.fir.types.*
import org.jetbrains.kotlin.fir.types.builder.buildErrorTypeRef
import org.jetbrains.kotlin.fir.types.builder.buildResolvedTypeRef
import org.jetbrains.kotlin.fir.types.impl.ConeClassLikeTypeImpl
import org.jetbrains.kotlin.fir.types.impl.ConeTypeParameterTypeImpl
import org.jetbrains.kotlin.fir.types.impl.FirImplicitTypeRefImplWithoutSource
import org.jetbrains.kotlin.fir.types.jvm.FirJavaTypeRef
import org.jetbrains.kotlin.fir.utils.exceptions.withFirEntry
import org.jetbrains.kotlin.load.java.*
import org.jetbrains.kotlin.load.java.AnnotationQualifierApplicabilityType.VALUE_PARAMETER
import org.jetbrains.kotlin.load.java.typeEnhancement.*
import org.jetbrains.kotlin.load.kotlin.SignatureBuildingComponents
import org.jetbrains.kotlin.name.*
import org.jetbrains.kotlin.types.AbstractTypeChecker
import org.jetbrains.kotlin.types.model.KotlinTypeMarker
import org.jetbrains.kotlin.types.model.TypeParameterMarker
import org.jetbrains.kotlin.types.model.TypeSystemContext
import org.jetbrains.kotlin.util.PrivateForInline
import org.jetbrains.kotlin.utils.exceptions.errorWithAttachment
class FirSignatureEnhancement(
private val owner: FirRegularClass,
private val session: FirSession,
private val overridden: FirCallableDeclaration.() -> List,
) {
/*
* FirSignatureEnhancement may be created with library session which doesn't have single module data,
* so owner is a only place where module data can be obtained. However it's guaranteed that `owner`
* was created for same session as one passed to constructor, so it's safe to use owners module data
*/
private val moduleData get() = owner.moduleData
private val javaTypeParameterStack: JavaTypeParameterStack =
if (owner is FirJavaClass) owner.javaTypeParameterStack else JavaTypeParameterStack.EMPTY
private val typeQualifierResolver = session.javaAnnotationTypeQualifierResolver
// This property is assumed to be initialized only after annotations for the class are initialized
// While in one of the cases FirSignatureEnhancement is created just one step before annotations resolution
private val contextQualifiers: JavaTypeQualifiersByElementType? by lazy(LazyThreadSafetyMode.NONE) {
typeQualifierResolver.extractDefaultQualifiers(owner)
}
private val enhancementsCache = session.enhancedSymbolStorage.cacheByOwner.getValue(owner.symbol, null)
fun enhancedFunction(
function: FirNamedFunctionSymbol,
name: Name,
precomputedOverridden: List? = null,
): FirNamedFunctionSymbol {
return enhancedFunctionImpl(function, name, precomputedOverridden) as FirNamedFunctionSymbol
}
fun enhancedConstructor(constructor: FirConstructorSymbol): FirConstructorSymbol {
return enhancedFunctionImpl(constructor, name = null, precomputedOverridden = null) as FirConstructorSymbol
}
private fun enhancedFunctionImpl(
function: FirFunctionSymbol<*>,
name: Name?,
precomputedOverridden: List? = null,
): FirFunctionSymbol<*> {
return enhancementsCache.enhancedFunctions.getValue(
function,
FirEnhancedSymbolsStorage.FunctionEnhancementContext(this, name, precomputedOverridden)
)
}
fun enhancedProperty(property: FirVariableSymbol<*>, name: Name): FirVariableSymbol<*> {
return enhancementsCache.enhancedVariables.getValue(property, this to name)
}
private fun FirDeclaration.computeDefaultQualifiers() =
typeQualifierResolver.extractAndMergeDefaultQualifiers(contextQualifiers, annotations)
@PrivateForInline
internal fun enhance(
original: FirVariableSymbol<*>,
name: Name,
): FirVariableSymbol<*> {
when (val firElement = original.fir) {
is FirEnumEntry -> {
if (firElement.returnTypeRef !is FirJavaTypeRef) return original
val predefinedInfo =
PredefinedFunctionEnhancementInfo(
TypeEnhancementInfo(0 to JavaTypeQualifiers(NullabilityQualifier.NOT_NULL, null, false)),
emptyList()
)
val newReturnTypeRef = enhanceReturnType(firElement, firElement.computeDefaultQualifiers(), predefinedInfo)
return buildEnumEntryCopy(firElement) {
symbol = FirEnumEntrySymbol(firElement.symbol.callableId)
returnTypeRef = newReturnTypeRef
origin = FirDeclarationOrigin.Enhancement
}.symbol
}
is FirField -> {
if (firElement.returnTypeRef !is FirJavaTypeRef) return original
val newReturnTypeRef = enhanceReturnType(
firElement, firElement.computeDefaultQualifiers(),
predefinedEnhancementInfo = null
).let {
val coneTypeOrNull = it.coneTypeOrNull
val lowerBound = coneTypeOrNull?.lowerBoundIfFlexible()
if (lowerBound != null && lowerBound.isString && firElement.isStatic && firElement.hasConstantInitializer) {
it.withReplacedConeType(coneTypeOrNull.withNullability(ConeNullability.NOT_NULL, session.typeContext))
} else {
it
}
}
val symbol = FirFieldSymbol(original.callableId)
buildJavaField {
source = firElement.source
moduleData = [email protected]
this.symbol = symbol
this.name = name
returnTypeRef = newReturnTypeRef
isFromSource = original.origin.fromSource
isVar = firElement.isVar
annotationBuilder = { firElement.annotations }
status = firElement.status
if (firElement is FirJavaField) {
lazyInitializer = firElement.lazyInitializer
lazyHasConstantInitializer = firElement.lazyHasConstantInitializer
} else {
initializer = firElement.initializer
}
dispatchReceiverType = firElement.dispatchReceiverType
attributes = firElement.attributes.copy()
}
return symbol
}
is FirSyntheticProperty -> {
val propertySymbol = firElement.symbol as FirJavaOverriddenSyntheticPropertySymbol
val getterDelegate = firElement.getter.delegate
val overridden = firElement.overridden()
val enhancedGetterSymbol = getterDelegate.enhanceAccessorOrNull(overridden)
val setterDelegate = firElement.setter?.delegate
val enhancedSetterSymbol = setterDelegate?.enhanceAccessorOrNull(overridden)
if (enhancedGetterSymbol == null && enhancedSetterSymbol == null) {
return original
}
return buildSyntheticProperty {
moduleData = [email protected]
this.name = name
symbol = FirJavaOverriddenSyntheticPropertySymbol(propertySymbol.callableId, propertySymbol.getterId)
delegateGetter = enhancedGetterSymbol?.fir as FirSimpleFunction? ?: getterDelegate
delegateSetter = enhancedSetterSymbol?.fir as FirSimpleFunction? ?: setterDelegate
status = firElement.status
deprecationsProvider = getDeprecationsProviderFromAccessors(session, delegateGetter, delegateSetter)
dispatchReceiverType = firElement.dispatchReceiverType
}.symbol
}
else -> {
if (original is FirPropertySymbol) return original
errorWithAttachment("Can't make enhancement for ${original::class.java}") {
withFirEntry("firElement", firElement)
}
}
}
}
private fun FirSimpleFunction.enhanceAccessorOrNull(overriddenProperties: List): FirFunctionSymbol<*>? {
if (!symbol.isEnhanceable()) return null
return enhancedFunction(symbol, name, overriddenProperties)
}
@PrivateForInline
internal fun enhance(
original: FirFunctionSymbol<*>,
name: Name?,
precomputedOverridden: List?,
): FirFunctionSymbol<*> {
if (!original.isEnhanceable()) {
return original
}
val firMethod = original.fir
when (firMethod) {
is FirJavaMethod -> performBoundsResolutionForJavaMethodOrConstructorTypeParameters(
firMethod.typeParameters, firMethod.source, firMethod::withTypeParameterBoundsResolveLock
)
is FirJavaConstructor -> performBoundsResolutionForJavaMethodOrConstructorTypeParameters(
firMethod.typeParameters, firMethod.source, firMethod::withTypeParameterBoundsResolveLock
)
else -> {}
}
return enhanceMethod(
firMethod,
original.callableId,
name,
original is FirIntersectionOverrideFunctionSymbol,
precomputedOverridden
)
}
private fun FirCallableSymbol<*>.isEnhanceable(): Boolean {
return origin is FirDeclarationOrigin.Java || isEnhanceableIntersection()
}
/**
* Intersection overrides with Java and Kotlin overridden symbols need to be enhanced so that we get non-flexible types
* in the signature.
* This is required for @PurelyImplements to work properly.
*
* We only enhance intersection overrides if their dispatch receiver is equal to [owner], i.e. we don't enhance inherited
* intersection overrides.
*
* See compiler/testData/codegen/box/fakeOverride/javaInheritsKotlinIntersectionOverride.kt.
*/
private fun FirCallableSymbol<*>.isEnhanceableIntersection(): Boolean {
return this is FirIntersectionCallableSymbol &&
dispatchReceiverClassLookupTagOrNull() == owner.symbol.toLookupTag() &&
unwrapFakeOverrides>().origin is FirDeclarationOrigin.Enhancement
}
private fun enhanceMethod(
firMethod: FirFunction,
methodId: CallableId,
name: Name?,
isIntersectionOverride: Boolean,
precomputedOverridden: List?,
): FirFunctionSymbol<*> {
val fakeSource = firMethod.source?.fakeElement(KtFakeSourceElementKind.Enhancement)
val predefinedEnhancementInfo =
SignatureBuildingComponents.signature(
owner.symbol.classId,
firMethod.computeJvmDescriptor { it.toConeKotlinTypeProbablyFlexible(session, javaTypeParameterStack, fakeSource) }
).let { signature ->
PREDEFINED_FUNCTION_ENHANCEMENT_INFO_BY_SIGNATURE[signature]?.useWarningsIfErrorModeIsNotEnabledYet()
}
predefinedEnhancementInfo?.let {
assert(it.parametersInfo.size == firMethod.valueParameters.size) {
"Predefined enhancement info for $this has ${it.parametersInfo.size}, but ${firMethod.valueParameters.size} expected"
}
}
val defaultQualifiers = firMethod.computeDefaultQualifiers()
val overriddenMembers = precomputedOverridden ?: (firMethod as? FirSimpleFunction)?.overridden().orEmpty()
// TODO(KT-66195) handle context receivers
val hasReceiver = overriddenMembers.any { it.receiverParameter != null }
val newReceiverTypeRef = if (firMethod is FirSimpleFunction && hasReceiver) {
enhanceReceiverType(firMethod, overriddenMembers, defaultQualifiers)
} else null
val (newReturnTypeRef, deferredCalc) = if (firMethod is FirSimpleFunction) {
enhanceReturnType(firMethod, overriddenMembers, defaultQualifiers, predefinedEnhancementInfo)
} else {
firMethod.returnTypeRef to null
}
val enhancedValueParameterTypes = mutableListOf()
for ((index, valueParameter) in firMethod.valueParameters.withIndex()) {
if (hasReceiver && index == 0) continue
enhancedValueParameterTypes += enhanceValueParameterType(
firMethod, overriddenMembers, hasReceiver,
defaultQualifiers, predefinedEnhancementInfo, valueParameter,
if (hasReceiver) index - 1 else index
)
}
val functionSymbol: FirFunctionSymbol<*>
var isJavaRecordComponent = false
val typeParameterSubstitutionMap = mutableMapOf()
var typeParameterSubstitutor: ConeSubstitutor? = null
val declarationOrigin =
if (isIntersectionOverride) FirDeclarationOrigin.IntersectionOverride else FirDeclarationOrigin.Enhancement
val function = when (firMethod) {
is FirConstructor -> {
val symbol = FirConstructorSymbol(methodId).also { functionSymbol = it }
val builder: FirAbstractConstructorBuilder = if (firMethod.isPrimary) {
FirPrimaryConstructorBuilder().apply {
returnTypeRef = newReturnTypeRef!! // Constructors don't have overriddens, newReturnTypeRef is never null
val resolvedStatus = firMethod.status as? FirResolvedDeclarationStatus
status = if (resolvedStatus != null) {
FirResolvedDeclarationStatusImpl(
resolvedStatus.visibility,
Modality.FINAL,
resolvedStatus.effectiveVisibility
)
} else {
FirDeclarationStatusImpl(firMethod.visibility, Modality.FINAL)
}.apply {
isInner = firMethod.isInner
// Java annotation class constructors have stable names, copy flag.
hasStableParameterNames = firMethod.hasStableParameterNames
}
this.symbol = symbol
dispatchReceiverType = firMethod.dispatchReceiverType
attributes = firMethod.attributes.copy()
}
} else {
FirConstructorBuilder().apply {
returnTypeRef = newReturnTypeRef!! // Constructors don't have overriddens, newReturnTypeRef is never null
status = firMethod.status
this.symbol = symbol
dispatchReceiverType = firMethod.dispatchReceiverType
attributes = firMethod.attributes.copy()
}
}
builder.apply {
source = firMethod.source
moduleData = [email protected]
resolvePhase = FirResolvePhase.ANALYZED_DEPENDENCIES
origin = declarationOrigin
// TODO: we should set a new origin / containing declaration to type parameters (KT-60440)
this.typeParameters += firMethod.typeParameters
}
}
is FirSimpleFunction -> {
isJavaRecordComponent = firMethod.isJavaRecordComponent == true
FirSimpleFunctionBuilder().apply {
source = firMethod.source
moduleData = [email protected]
origin = declarationOrigin
this.name = name!!
status = firMethod.status
symbol = if (isIntersectionOverride) {
FirIntersectionOverrideFunctionSymbol(
methodId, overriddenMembers.map { it.symbol },
containsMultipleNonSubsumed = (firMethod.symbol as? FirIntersectionCallableSymbol)?.containsMultipleNonSubsumed == true,
)
} else {
FirNamedFunctionSymbol(methodId)
}.also { functionSymbol = it }
resolvePhase = FirResolvePhase.ANALYZED_DEPENDENCIES
typeParameters += firMethod.typeParameters.map { typeParameter ->
val newTypeParameter = buildTypeParameterCopy(typeParameter) {
origin = declarationOrigin
symbol = FirTypeParameterSymbol()
containingDeclarationSymbol = functionSymbol
}
typeParameterSubstitutionMap[typeParameter.symbol] = ConeTypeParameterTypeImpl(
newTypeParameter.symbol.toLookupTag(), isNullable = false
)
newTypeParameter
}
if (typeParameterSubstitutionMap.isNotEmpty()) {
typeParameterSubstitutor = ConeSubstitutorByMap.create(typeParameterSubstitutionMap, session)
}
returnTypeRef = if (typeParameterSubstitutor != null && newReturnTypeRef is FirResolvedTypeRef) {
newReturnTypeRef.withReplacedConeType(
typeParameterSubstitutor?.substituteOrNull(newReturnTypeRef.coneType)
)
} else {
newReturnTypeRef ?: FirImplicitTypeRefImplWithoutSource
}
val substitutedReceiverTypeRef = newReceiverTypeRef?.withReplacedConeType(
typeParameterSubstitutor?.substituteOrNull(newReceiverTypeRef.coneType)
)
receiverParameter = substitutedReceiverTypeRef?.let { receiverType ->
buildReceiverParameter {
typeRef = receiverType
annotations += firMethod.valueParameters.first().annotations
source = receiverType.source?.fakeElement(KtFakeSourceElementKind.ReceiverFromType)
}
}
typeParameters.forEach { typeParameter ->
typeParameter.replaceBounds(
typeParameter.bounds.map { boundTypeRef ->
boundTypeRef.withReplacedConeType(typeParameterSubstitutor?.substituteOrNull(boundTypeRef.coneType))
}
)
}
dispatchReceiverType = firMethod.dispatchReceiverType
attributes = firMethod.attributes.copy().apply {
if (deferredCalc != null) {
deferredCallableCopyReturnType = if (typeParameterSubstitutor != null) {
DelegatingDeferredReturnTypeWithSubstitution(deferredCalc, typeParameterSubstitutor!!)
} else {
deferredCalc
}
}
}
}
}
else -> errorWithAttachment("Unknown Java method to enhance: ${firMethod::class.java}") {
withFirEntry("firMethod", firMethod)
}
}.apply {
val newValueParameters = firMethod.valueParameters.zip(enhancedValueParameterTypes) { valueParameter, enhancedReturnType ->
valueParameter.defaultValue?.replaceConeTypeOrNull(enhancedReturnType.coneType)
buildValueParameter {
source = valueParameter.source
containingFunctionSymbol = functionSymbol
moduleData = [email protected]
origin = declarationOrigin
returnTypeRef = enhancedReturnType.withReplacedConeType(
typeParameterSubstitutor?.substituteOrNull(enhancedReturnType.coneType)
)
this.name = valueParameter.name
symbol = FirValueParameterSymbol(this.name)
defaultValue = valueParameter.defaultValue
isCrossinline = valueParameter.isCrossinline
isNoinline = valueParameter.isNoinline
isVararg = valueParameter.isVararg
resolvePhase = FirResolvePhase.ANALYZED_DEPENDENCIES
annotations += valueParameter.annotations
}
}
this.valueParameters += newValueParameters
annotations += firMethod.annotations
deprecationsProvider = annotations.getDeprecationsProviderFromAnnotations(session, fromJava = true)
}.build().apply {
if (isJavaRecordComponent) {
this.isJavaRecordComponent = true
}
updateIsOperatorFlagIfNeeded(this)
}
return function.symbol
}
private fun PredefinedFunctionEnhancementInfo.useWarningsIfErrorModeIsNotEnabledYet(): PredefinedFunctionEnhancementInfo {
val stringVersionRepresentation = errorsSinceLanguageVersion ?: return this
val fromVersionString =
LanguageVersion.fromVersionString(stringVersionRepresentation) ?: error("Unexpected LV: $stringVersionRepresentation")
if (session.languageVersionSettings.languageVersion >= fromVersionString) return this
return warningModeClone ?: error("For not null LV $errorsSinceLanguageVersion, `warningModeClone` should not be null")
}
private fun updateIsOperatorFlagIfNeeded(function: FirFunction) {
if (function !is FirSimpleFunction) return
val isOperator = OperatorFunctionChecks.isOperator(function, session, scopeSession = null).isSuccess
if (!isOperator) return
val newStatus = function.status.copy(isOperator = true)
function.replaceStatus(newStatus)
}
fun performBoundsResolutionForClassTypeParameters(facade: FirJavaFacade, klass: FirJavaClass, source: KtSourceElement?) {
val typeParameters = klass.typeParameters
if (typeParameters.isEmpty()) return
facade.withClassTypeParameterBoundsResolveLock {
performFirstRoundOfBoundsResolution(typeParameters, source)
}
enhanceTypeParameterBoundsAfterFirstRound(typeParameters, source, facade::withClassTypeParameterBoundsResolveLock)
}
private fun performBoundsResolutionForJavaMethodOrConstructorTypeParameters(
typeParameters: List,
source: KtSourceElement?,
withTypeParameterBoundsResolveLock: (() -> Unit) -> Unit,
) {
if (typeParameters.isEmpty()) return
withTypeParameterBoundsResolveLock {
performFirstRoundOfBoundsResolution(typeParameters, source)
}
enhanceTypeParameterBoundsAfterFirstRound(typeParameters, source, withTypeParameterBoundsResolveLock)
}
/**
* Perform first time initialization of bounds with FirResolvedTypeRef instances
* But after that bounds are still not enhanced and more over might have not totally correct raw types bounds
* (see the next step in the method performSecondRoundOfBoundsResolution)
*
* In case of A, or similar cases, the bound is converted to the flexible version A<*>..A<*>?,
* while in the end it's assumed to be A>..A<*>?
*
* That's necessary because at this stage it's not quite easy to come just to the final version since for that
* we would the need upper bounds of all the type parameters that might not yet be initialized at the moment
*
* See the usages of FirJavaTypeConversionMode.TYPE_PARAMETER_BOUND_FIRST_ROUND
*
* @return false if first time initialization was done previously, true otherwise
*/
private fun performFirstRoundOfBoundsResolution(
typeParameters: List,
source: KtSourceElement?,
): Boolean {
for (typeParameter in typeParameters) {
if (typeParameter is FirJavaTypeParameter) {
if (!typeParameter.performFirstRoundOfBoundsResolution(session, javaTypeParameterStack, source)) {
return false
}
}
}
return true
}
/**
* In most cases the result of this method is just bounds from the [performFirstRoundOfBoundsResolution]
*
* But for the cases like A
* After the first step we've got all bounds are initialized to potentially approximated version of raw types
* And here, we compute the final version using previously initialized bounds
*
* So, mostly it works just as the first step, but assumes that bounds already contain FirResolvedTypeRef
*
* This function never publishes its result, so all [FirJavaTypeParameter] are remaining unchanged.
*
* @return null if second round was done previously, or matrix of enhanced bounds for all [FirJavaTypeParameter] otherwise
*/
private fun performSecondRoundOfBoundsResolution(
typeParameters: List,
source: KtSourceElement?,
): List>? {
val result = mutableListOf>()
for (typeParameter in typeParameters) {
if (typeParameter is FirJavaTypeParameter) {
val enhancedBounds =
typeParameter.performSecondRoundOfBoundsResolution(session, javaTypeParameterStack, source)
if (enhancedBounds == null) {
return null
}
result += enhancedBounds
}
}
return result
}
/**
* There are four rounds of bounds resolution for Java type parameters
* 1. Plain conversion of Java types without any enhancement (with approximated raw types)
* 2. The same conversion, but raw types are now computed precisely
* 3. Enhancement for top-level types (no enhancement for arguments)
* 4. Enhancement for the whole types (with arguments)
*
* This method requires type parameters that have already been run through the first round
*/
private fun enhanceTypeParameterBoundsAfterFirstRound(
typeParameters: List,
source: KtSourceElement?,
withTypeParameterBoundsResolveLock: (() -> Unit) -> Unit,
) {
val secondRoundBounds = performSecondRoundOfBoundsResolution(typeParameters, source)
if (secondRoundBounds == null) {
// null means here that everything is already enhanced to the last round
return
}
// Type parameters can have interdependencies between them. Assuming that there are no top-level cycles
// (`A : B, B : A` - invalid), the cycles can still appear when type parameters use each other in argument
// position (`A : C, B : D` - valid). In this case the precise enhancement of each bound depends on
// the others' nullability, for which we need to enhance at least its head type constructor.
typeParameters.replaceEnhancedBounds(secondRoundBounds) { typeParameter, bound ->
enhanceTypeParameterBound(typeParameter, bound, forceOnlyHeadTypeConstructor = true)
}
typeParameters.replaceEnhancedBounds(secondRoundBounds) { typeParameter, bound ->
enhanceTypeParameterBound(typeParameter, bound, forceOnlyHeadTypeConstructor = false)
}
var currentIndex = 0
withTypeParameterBoundsResolveLock {
// Here we publish our results
for (typeParameter in typeParameters) {
/**
* This 'if' condition, together with currentIndex++, must be synchronized
* with the same 'if' inside [performFirstRoundOfBoundsResolution]
*/
if (typeParameter is FirJavaTypeParameter) {
typeParameter.storeBoundsAfterAllRounds(secondRoundBounds[currentIndex])
currentIndex++
}
}
}
}
private inline fun List.replaceEnhancedBounds(
secondRoundBounds: List>,
crossinline block: (FirTypeParameter, FirResolvedTypeRef) -> FirResolvedTypeRef
) {
var currentIndex = 0
for (typeParameter in this) {
/**
* This 'if' condition, together with currentIndex++, must be synchronized
* with the same 'if' inside [performFirstRoundOfBoundsResolution]
*/
if (typeParameter is FirJavaTypeParameter) {
secondRoundBounds[currentIndex].replaceAll { block(typeParameter, it) }
currentIndex++
}
}
}
private fun enhanceTypeParameterBound(
typeParameter: FirTypeParameter,
bound: FirResolvedTypeRef,
forceOnlyHeadTypeConstructor: Boolean,
): FirResolvedTypeRef = EnhancementSignatureParts(
session, typeQualifierResolver, typeParameter, isCovariant = false, forceOnlyHeadTypeConstructor,
AnnotationQualifierApplicabilityType.TYPE_PARAMETER_BOUNDS, contextQualifiers
).enhance(bound, emptyList(), FirJavaTypeConversionMode.TYPE_PARAMETER_BOUND_AFTER_FIRST_ROUND)
fun enhanceSuperTypes(nonEnhancedSuperTypes: List): List {
val purelyImplementedSupertype = getPurelyImplementedSupertype(moduleData.session)
val purelyImplementedSupertypeClassId = purelyImplementedSupertype?.classId
return buildList {
nonEnhancedSuperTypes.mapNotNullTo(this) { superType ->
enhanceSuperType(superType).takeUnless {
purelyImplementedSupertypeClassId != null && it.coneType.classId == purelyImplementedSupertypeClassId
}
}
purelyImplementedSupertype?.let {
add(buildResolvedTypeRef { type = it })
}
}
}
private fun getPurelyImplementedSupertype(session: FirSession): ConeKotlinType? {
val purelyImplementedClassIdFromAnnotation = owner.annotations
.firstOrNull { it.unexpandedClassId?.asSingleFqName() == JvmAnnotationNames.PURELY_IMPLEMENTS_ANNOTATION }
?.let { (it.argumentMapping.mapping.values.firstOrNull() as? FirLiteralExpression) }
?.let { it.value as? String }
?.takeIf { it.isNotBlank() && isValidJavaFqName(it) }
?.let { ClassId.topLevel(FqName(it)) }
val purelyImplementedClassId = purelyImplementedClassIdFromAnnotation
?: FakePureImplementationsProvider.getPurelyImplementedInterface(owner.symbol.classId)
?: return null
val superTypeSymbol = session.symbolProvider.getClassLikeSymbolByClassId(purelyImplementedClassId) ?: return null
val superTypeParameterSymbols = superTypeSymbol.typeParameterSymbols
val typeParameters = owner.typeParameters
val supertypeParameterCount = superTypeParameterSymbols.size
val typeParameterCount = typeParameters.size
val parametersAsTypeProjections = when {
typeParameterCount == supertypeParameterCount ->
typeParameters.map { ConeTypeParameterTypeImpl(ConeTypeParameterLookupTag(it.symbol), isNullable = false) }
typeParameterCount == 1 && supertypeParameterCount > 1 && purelyImplementedClassIdFromAnnotation == null -> {
val projection = ConeTypeParameterTypeImpl(ConeTypeParameterLookupTag(typeParameters.first().symbol), isNullable = false)
(1..supertypeParameterCount).map { projection }
}
else -> return null
}
return ConeClassLikeTypeImpl(
purelyImplementedClassId.toLookupTag(),
parametersAsTypeProjections.toTypedArray(),
isNullable = false
)
}
private fun enhanceSuperType(type: FirTypeRef): FirTypeRef =
EnhancementSignatureParts(
session, typeQualifierResolver, null, isCovariant = false, forceOnlyHeadTypeConstructor = false,
AnnotationQualifierApplicabilityType.TYPE_USE, contextQualifiers
).enhance(type, emptyList(), FirJavaTypeConversionMode.SUPERTYPE)
// ================================================================================================
private fun enhanceReceiverType(
ownerFunction: FirSimpleFunction,
overriddenMembers: List,
defaultQualifiers: JavaTypeQualifiersByElementType?,
): FirResolvedTypeRef {
return ownerFunction.enhanceValueParameter(
overriddenMembers,
ownerFunction,
defaultQualifiers,
TypeInSignature.Receiver,
predefined = null,
forAnnotationMember = false
)
}
private fun enhanceValueParameterType(
ownerFunction: FirFunction,
overriddenMembers: List,
hasReceiver: Boolean,
defaultQualifiers: JavaTypeQualifiersByElementType?,
predefinedEnhancementInfo: PredefinedFunctionEnhancementInfo?,
ownerParameter: FirValueParameter,
index: Int,
): FirResolvedTypeRef {
return ownerFunction.enhanceValueParameter(
overriddenMembers,
ownerParameter,
defaultQualifiers,
TypeInSignature.ValueParameter(hasReceiver, index),
predefinedEnhancementInfo?.parametersInfo?.getOrNull(index),
forAnnotationMember = owner.classKind == ClassKind.ANNOTATION_CLASS
)
}
private fun enhanceReturnType(
owner: FirCallableDeclaration,
defaultQualifiers: JavaTypeQualifiersByElementType?,
predefinedEnhancementInfo: PredefinedFunctionEnhancementInfo?,
): FirResolvedTypeRef {
return enhanceReturnType(owner, emptyList(), defaultQualifiers, predefinedEnhancementInfo).first!!
}
/**
* Either returns a not-null [FirResolvedTypeRef] or a not-null [DeferredCallableCopyReturnType], never both.
*
* [DeferredCallableCopyReturnType] can only (but doesn't need to) be not-null when [overriddenMembers] is non-empty.
*/
private fun enhanceReturnType(
owner: FirCallableDeclaration,
overriddenMembers: List,
defaultQualifiers: JavaTypeQualifiersByElementType?,
predefinedEnhancementInfo: PredefinedFunctionEnhancementInfo?,
): Pair {
val containerApplicabilityType = if (owner is FirJavaField) {
AnnotationQualifierApplicabilityType.FIELD
} else {
AnnotationQualifierApplicabilityType.METHOD_RETURN_TYPE
}
val forAnnotationMember = if (owner is FirJavaField) {
// Fields in annotation interfaces are constant declarations that can have any Java type.
// For example: public @interface MyApi { Integer field = -1; }
// Therefore, for such annotation interface fields, we use default Java type enhancement.
false
} else {
this.owner.classKind == ClassKind.ANNOTATION_CLASS
}
// If any overridden member has implicit return type, we need to defer the return type computation.
if (overriddenMembers.any { it.returnTypeRef is FirImplicitTypeRef }) {
val deferredReturnTypeCalculation = object : DeferredCallableCopyReturnType() {
override fun computeReturnType(calc: CallableCopyTypeCalculator): ConeKotlinType {
return owner.enhance(
overriddenMembers,
owner,
isCovariant = true,
defaultQualifiers,
containerApplicabilityType,
typeInSignature = TypeInSignature.ReturnPossiblyDeferred(calc),
predefinedEnhancementInfo?.returnTypeInfo,
forAnnotationMember = forAnnotationMember
).type
}
override fun toString(): String = "Deferred for Enhancement (Overriddens with Implicit Types)"
}
return null to deferredReturnTypeCalculation
}
return owner.enhance(
overriddenMembers,
owner,
isCovariant = true,
defaultQualifiers,
containerApplicabilityType,
TypeInSignature.Return,
predefinedEnhancementInfo?.returnTypeInfo,
forAnnotationMember = forAnnotationMember
) to null
}
private abstract class TypeInSignature {
abstract fun getTypeRef(member: FirCallableDeclaration): FirTypeRef
object Return : TypeInSignature() {
override fun getTypeRef(member: FirCallableDeclaration): FirTypeRef = member.returnTypeRef
}
class ReturnPossiblyDeferred(private val calc: CallableCopyTypeCalculator) : TypeInSignature() {
override fun getTypeRef(member: FirCallableDeclaration): FirTypeRef {
return if (member.isJava) {
member.returnTypeRef
} else {
calc.computeReturnType(member) ?: buildErrorTypeRef {
diagnostic = ConeSimpleDiagnostic("Could not resolve returnType for $member")
}
}
}
}
object Receiver : TypeInSignature() {
override fun getTypeRef(member: FirCallableDeclaration): FirTypeRef {
if (member is FirSimpleFunction && member.isJava) {
return member.valueParameters[0].returnTypeRef
}
return member.receiverParameter?.typeRef!!
}
}
class ValueParameter(val hasReceiver: Boolean, val index: Int) : TypeInSignature() {
override fun getTypeRef(member: FirCallableDeclaration): FirTypeRef {
// When we enhance a setter override, the overridden property's return type corresponds to the setter's value parameter.
if (member is FirProperty) {
return member.returnTypeRef
}
if (hasReceiver && member is FirSimpleFunction && member.isJava) {
return member.valueParameters[index + 1].returnTypeRef
}
return (member as FirFunction).valueParameters[index].returnTypeRef
}
}
}
private fun FirFunction.enhanceValueParameter(
overriddenMembers: List,
parameterContainer: FirAnnotationContainer?,
defaultQualifiers: JavaTypeQualifiersByElementType?,
typeInSignature: TypeInSignature,
predefined: TypeEnhancementInfo?,
forAnnotationMember: Boolean,
): FirResolvedTypeRef = enhance(
overriddenMembers,
parameterContainer ?: this,
isCovariant = false,
parameterContainer?.let {
typeQualifierResolver.extractAndMergeDefaultQualifiers(defaultQualifiers, it.annotations)
} ?: defaultQualifiers,
VALUE_PARAMETER,
typeInSignature,
predefined,
forAnnotationMember
)
private fun FirCallableDeclaration.enhance(
overriddenMembers: List,
typeContainer: FirAnnotationContainer?,
isCovariant: Boolean,
containerQualifiers: JavaTypeQualifiersByElementType?,
containerApplicabilityType: AnnotationQualifierApplicabilityType,
typeInSignature: TypeInSignature,
predefined: TypeEnhancementInfo?,
forAnnotationMember: Boolean,
): FirResolvedTypeRef {
val typeRef = typeInSignature.getTypeRef(this)
val typeRefsFromOverridden = overriddenMembers.map { typeInSignature.getTypeRef(it) }
val mode = when {
!forAnnotationMember ->
FirJavaTypeConversionMode.DEFAULT
containerApplicabilityType == VALUE_PARAMETER && (typeContainer as? FirValueParameter)?.name == DEFAULT_VALUE_PARAMETER ->
FirJavaTypeConversionMode.ANNOTATION_CONSTRUCTOR_PARAMETER
else ->
FirJavaTypeConversionMode.ANNOTATION_MEMBER
}
return EnhancementSignatureParts(
session, typeQualifierResolver, typeContainer, isCovariant, forceOnlyHeadTypeConstructor = false,
containerApplicabilityType, containerQualifiers
).enhance(typeRef, typeRefsFromOverridden, mode, predefined)
}
private fun EnhancementSignatureParts.enhance(
typeRef: FirTypeRef, typeRefsFromOverridden: List,
mode: FirJavaTypeConversionMode, predefined: TypeEnhancementInfo? = null,
): FirResolvedTypeRef {
val typeWithoutEnhancement = typeRef.toConeKotlinType(mode, typeRef.source)
val typesFromOverridden = typeRefsFromOverridden.map { it.toConeKotlinType(mode, typeRef.source) }
val qualifiers = typeWithoutEnhancement.computeIndexedQualifiers(typesFromOverridden, predefined)
return buildResolvedTypeRef {
type = typeWithoutEnhancement.enhance(session, qualifiers) ?: typeWithoutEnhancement
annotations += typeRef.annotations
source = typeRef.source
}
}
private fun FirTypeRef.toConeKotlinType(mode: FirJavaTypeConversionMode, source: KtSourceElement?): ConeKotlinType =
toConeKotlinTypeProbablyFlexible(session, javaTypeParameterStack, source, mode)
}
/**
* Delegates computation of return type to [deferredCalc] and substitutes the resulting type with [substitutor].
*/
private class DelegatingDeferredReturnTypeWithSubstitution(
private val deferredCalc: DeferredCallableCopyReturnType,
private val substitutor: ConeSubstitutor,
) : DeferredCallableCopyReturnType() {
override fun computeReturnType(calc: CallableCopyTypeCalculator): ConeKotlinType? {
return deferredCalc.computeReturnType(calc)?.let(substitutor::substituteOrSelf)
}
override fun toString(): String {
return "DelegatingDeferredReturnTypeWithSubstitution(deferredCalc=$deferredCalc, substitutor=$substitutor)"
}
}
private class EnhancementSignatureParts(
private val session: FirSession,
override val annotationTypeQualifierResolver: FirAnnotationTypeQualifierResolver,
private val typeContainer: FirAnnotationContainer?,
override val isCovariant: Boolean,
override val forceOnlyHeadTypeConstructor: Boolean,
override val containerApplicabilityType: AnnotationQualifierApplicabilityType,
override val containerDefaultTypeQualifiers: JavaTypeQualifiersByElementType?,
) : AbstractSignatureParts() {
override val enableImprovementsInStrictMode: Boolean
get() = true
override val skipRawTypeArguments: Boolean
get() = false
override val containerAnnotations: Iterable
get() = typeContainer?.annotations ?: emptyList()
override val containerIsVarargParameter: Boolean
get() = typeContainer is FirValueParameter && typeContainer.isVararg
override val typeSystem: TypeSystemContext
get() = session.typeContext
override fun FirAnnotation.forceWarning(unenhancedType: KotlinTypeMarker?): Boolean = this is FirJavaExternalAnnotation
override val KotlinTypeMarker.annotations: Iterable
get() = (this as ConeKotlinType).customAnnotations
override val KotlinTypeMarker.fqNameUnsafe: FqNameUnsafe?
get() = ((this as? ConeLookupTagBasedType)?.lookupTag as? ConeClassLikeLookupTag)?.classId?.asSingleFqName()?.toUnsafe()
override val KotlinTypeMarker.enhancedForWarnings: KotlinTypeMarker?
get() = (this as ConeKotlinType).enhancedTypeForWarning
override fun KotlinTypeMarker.isEqual(other: KotlinTypeMarker): Boolean =
AbstractTypeChecker.equalTypes(session.typeContext, this, other)
override fun KotlinTypeMarker.isArrayOrPrimitiveArray(): Boolean = (this as ConeKotlinType).isArrayOrPrimitiveArray
override val TypeParameterMarker.isFromJava: Boolean
get() = (this as ConeTypeParameterLookupTag).symbol.fir.origin is FirDeclarationOrigin.Java
override fun getDefaultNullability(
referencedParameterBoundsNullability: NullabilityQualifierWithMigrationStatus?,
defaultTypeQualifiers: JavaDefaultQualifiers?
): NullabilityQualifierWithMigrationStatus? {
return referencedParameterBoundsNullability?.takeIf { it.qualifier == NullabilityQualifier.NOT_NULL }
?: defaultTypeQualifiers?.nullabilityQualifier
}
}
class FirEnhancedSymbolsStorage(private val cachesFactory: FirCachesFactory) : FirSessionComponent {
constructor(session: FirSession) : this(session.firCachesFactory)
val cacheByOwner: FirCache =
cachesFactory.createCache { _ -> EnhancementSymbolsCache(cachesFactory) }
class FunctionEnhancementContext(
val enhancement: FirSignatureEnhancement,
val name: Name?,
val precomputedOverridden: List?,
)
class EnhancementSymbolsCache(cachesFactory: FirCachesFactory) {
@OptIn(PrivateForInline::class)
val enhancedFunctions: FirCache, FirFunctionSymbol<*>, FunctionEnhancementContext> =
cachesFactory.createCacheWithPostCompute(
createValue = { original, context ->
context.enhancement.enhance(original, context.name, context.precomputedOverridden) to context.enhancement
},
postCompute = { _, enhancedVersion, enhancement ->
val enhancedVersionFir = enhancedVersion.fir
(enhancedVersionFir.initialSignatureAttr)?.let {
enhancedVersionFir.initialSignatureAttr = enhancement.enhancedFunction(it, it.name)
}
}
)
@OptIn(PrivateForInline::class)
val enhancedVariables: FirCache, FirVariableSymbol<*>, Pair> =
cachesFactory.createCache { original, (enhancement, name) ->
enhancement.enhance(original, name)
}
}
}
private val FirSession.enhancedSymbolStorage: FirEnhancedSymbolsStorage by FirSession.sessionComponentAccessor()