FIR: replace 3 flags in Java type conversion with 1 enum

This commit is contained in:
pyos
2021-08-12 13:29:33 +02:00
committed by teamcityserver
parent 74b3634e1f
commit 4654bdb199
5 changed files with 71 additions and 159 deletions
@@ -21,6 +21,7 @@ import org.jetbrains.kotlin.fir.scopes.FirTypeScope
import org.jetbrains.kotlin.fir.scopes.impl.*
import org.jetbrains.kotlin.fir.scopes.scopeForSupertype
import org.jetbrains.kotlin.fir.symbols.impl.FirRegularClassSymbol
import org.jetbrains.kotlin.fir.types.constructClassLikeType
import org.jetbrains.kotlin.name.StandardClassIds
import org.jetbrains.kotlin.utils.DFS
@@ -86,7 +87,7 @@ class JavaScopeProvider(
val declaredScope = buildDeclaredMemberScope(useSiteSession, regularClass)
val superTypes =
if (regularClass.isThereLoopInSupertypes(useSiteSession))
listOf(StandardClassIds.Any.toConeKotlinType(emptyArray(), isNullable = false))
listOf(StandardClassIds.Any.constructClassLikeType(emptyArray(), isNullable = false))
else
lookupSuperTypes(regularClass, lookupInterfaces = true, deep = false, useSiteSession = useSiteSession)
@@ -127,12 +127,7 @@ class JavaSymbolProvider(
stack: JavaTypeParameterStack
) {
for (upperBound in javaTypeParameter.upperBounds) {
bounds += upperBound.toFirResolvedTypeRef(
this@JavaSymbolProvider.session,
stack,
isForSupertypes = false,
forTypeParameterBounds = true
)
bounds += upperBound.toFirResolvedTypeRef(session, stack, FirJavaTypeConversionMode.TYPE_PARAMETER_BOUND)
}
addDefaultBoundIfNecessary(isFlexible = true)
}
@@ -226,7 +221,7 @@ class JavaSymbolProvider(
) {
replaceSuperTypeRefs(
javaClass.supertypes.map { supertype ->
supertype.toFirResolvedTypeRef(session, javaTypeParameterStack, isForSupertypes = true, forTypeParameterBounds = false)
supertype.toFirResolvedTypeRef(session, javaTypeParameterStack, FirJavaTypeConversionMode.SUPERTYPE)
}
)
}
@@ -23,7 +23,6 @@ import org.jetbrains.kotlin.fir.symbols.impl.ConeClassLikeLookupTagImpl
import org.jetbrains.kotlin.fir.symbols.impl.FirRegularClassSymbol
import org.jetbrains.kotlin.fir.types.*
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.jvm.FirJavaTypeRef
import org.jetbrains.kotlin.fir.types.jvm.buildJavaTypeRef
@@ -36,28 +35,33 @@ import org.jetbrains.kotlin.types.Variance
import org.jetbrains.kotlin.util.capitalizeDecapitalize.capitalizeAsciiOnly
import org.jetbrains.kotlin.utils.addToStdlib.runIf
private fun ClassId.toLookupTag(): ConeClassLikeLookupTag {
return ConeClassLikeLookupTagImpl(this)
private fun ClassId.toLookupTag(): ConeClassLikeLookupTag =
ConeClassLikeLookupTagImpl(this)
private fun ClassId.toConeFlexibleType(
typeArguments: Array<out ConeTypeProjection>,
typeArgumentsForUpper: Array<out ConeTypeProjection>,
attributes: ConeAttributes
) = toLookupTag().run {
ConeFlexibleType(
constructClassType(typeArguments, isNullable = false, attributes),
constructClassType(typeArgumentsForUpper, isNullable = true, attributes)
)
}
internal fun ClassId.toConeKotlinType(
typeArguments: Array<ConeTypeProjection>,
isNullable: Boolean,
attributes: ConeAttributes = ConeAttributes.Empty
): ConeLookupTagBasedType {
return ConeClassLikeTypeImpl(toLookupTag(), typeArguments, isNullable, attributes)
internal enum class FirJavaTypeConversionMode {
DEFAULT, ANNOTATION_MEMBER, SUPERTYPE, TYPE_PARAMETER_BOUND
}
internal fun FirTypeRef.toConeKotlinTypeProbablyFlexible(
session: FirSession, javaTypeParameterStack: JavaTypeParameterStack
session: FirSession, javaTypeParameterStack: JavaTypeParameterStack,
mode: FirJavaTypeConversionMode = FirJavaTypeConversionMode.DEFAULT
): ConeKotlinType =
when (this) {
is FirResolvedTypeRef -> type
is FirJavaTypeRef -> type.toConeKotlinTypeWithoutEnhancement(session, javaTypeParameterStack, isForSupertypes = false)
else -> ConeKotlinErrorType(
ConeSimpleDiagnostic("Unexpected type reference in JavaClassUseSiteMemberScope: ${this::class.java}", DiagnosticKind.Java)
)
}
is FirResolvedTypeRef -> this
is FirJavaTypeRef -> type.toFirResolvedTypeRef(session, javaTypeParameterStack, mode)
else -> null
}?.type ?: ConeKotlinErrorType(ConeSimpleDiagnostic("Type reference in Java not resolved: ${this::class.java}", DiagnosticKind.Java))
internal fun JavaType.toFirJavaTypeRef(session: FirSession, javaTypeParameterStack: JavaTypeParameterStack): FirJavaTypeRef {
return buildJavaTypeRef {
@@ -70,29 +74,20 @@ internal fun JavaType.toFirJavaTypeRef(session: FirSession, javaTypeParameterSta
}
}
internal fun JavaClassifierType.toFirResolvedTypeRef(
session: FirSession,
javaTypeParameterStack: JavaTypeParameterStack,
isForSupertypes: Boolean,
forTypeParameterBounds: Boolean
internal fun JavaType?.toFirResolvedTypeRef(
session: FirSession, javaTypeParameterStack: JavaTypeParameterStack,
mode: FirJavaTypeConversionMode = FirJavaTypeConversionMode.DEFAULT
): FirResolvedTypeRef {
val coneType =
if (isForSupertypes)
toConeKotlinTypeForFlexibleBound(session, javaTypeParameterStack, forTypeParameterBounds, isForSupertypes)
else
toConeKotlinTypeWithoutEnhancement(session, javaTypeParameterStack, forTypeParameterBounds, isForSupertypes)
return buildResolvedTypeRef {
type = coneType
this@toFirResolvedTypeRef.annotations.mapTo(annotations) { it.toFirAnnotationCall(session, javaTypeParameterStack) }
type = toConeKotlinTypeWithoutEnhancement(session, javaTypeParameterStack, mode)
.let { if (mode == FirJavaTypeConversionMode.SUPERTYPE) it.lowerBoundIfFlexible() else it }
annotations += type.attributes.customAnnotations
}
}
internal fun JavaType?.toConeKotlinTypeWithoutEnhancement(
session: FirSession,
javaTypeParameterStack: JavaTypeParameterStack,
forAnnotationMember: Boolean = false,
isForSupertypes: Boolean = false
private fun JavaType?.toConeKotlinTypeWithoutEnhancement(
session: FirSession, javaTypeParameterStack: JavaTypeParameterStack,
mode: FirJavaTypeConversionMode
): ConeKotlinType {
val attributes = if (this != null && annotations.isNotEmpty()) {
ConeAttributes.create(
@@ -102,14 +97,8 @@ internal fun JavaType?.toConeKotlinTypeWithoutEnhancement(
ConeAttributes.Empty
}
return when (this) {
is JavaClassifierType -> {
toConeKotlinTypeWithoutEnhancement(
session,
javaTypeParameterStack,
forAnnotationMember = forAnnotationMember,
attributes = attributes
)
}
is JavaClassifierType ->
toConeKotlinTypeWithoutEnhancement(session, javaTypeParameterStack, mode, attributes)
is JavaPrimitiveType -> {
val primitiveType = type
val kotlinPrimitiveName = when (val javaName = primitiveType?.typeName?.asString()) {
@@ -118,43 +107,28 @@ internal fun JavaType?.toConeKotlinTypeWithoutEnhancement(
}
val classId = StandardClassIds.byName(kotlinPrimitiveName)
classId.toConeKotlinType(emptyArray(), isNullable = false, attributes)
}
is JavaArrayType -> {
toConeKotlinTypeWithoutEnhancement(
session,
javaTypeParameterStack,
forAnnotationMember,
isForSupertypes,
attributes = attributes
)
classId.constructClassLikeType(emptyArray(), isNullable = false, attributes)
}
is JavaArrayType ->
toConeKotlinTypeWithoutEnhancement(session, javaTypeParameterStack, mode, attributes)
is JavaWildcardType ->
bound?.toConeKotlinTypeWithoutEnhancement(
session,
javaTypeParameterStack,
isForSupertypes = isForSupertypes
) ?: StandardClassIds.Any.toConeFlexibleType(emptyArray(), attributes = attributes)
null ->
StandardClassIds.Any.toConeFlexibleType(emptyArray(), attributes = attributes)
bound?.toConeKotlinTypeWithoutEnhancement(session, javaTypeParameterStack, mode)
null -> null
else -> error("Strange JavaType: ${this::class.java}")
}
} ?: StandardClassIds.Any.toConeFlexibleType(emptyArray(), emptyArray(), attributes = attributes)
}
private fun JavaArrayType.toConeKotlinTypeWithoutEnhancement(
session: FirSession,
javaTypeParameterStack: JavaTypeParameterStack,
forAnnotationValueParameter: Boolean = false,
isForSupertypes: Boolean,
attributes: ConeAttributes = ConeAttributes.Empty
mode: FirJavaTypeConversionMode,
attributes: ConeAttributes
): ConeKotlinType {
val componentType = componentType
return if (componentType !is JavaPrimitiveType) {
val classId = StandardClassIds.Array
val argumentType = componentType.toConeKotlinTypeWithoutEnhancement(
session, javaTypeParameterStack, forAnnotationValueParameter, isForSupertypes
)
if (forAnnotationValueParameter) {
val argumentType = componentType.toConeKotlinTypeWithoutEnhancement(session, javaTypeParameterStack, mode)
if (mode == FirJavaTypeConversionMode.ANNOTATION_MEMBER) {
classId.constructClassLikeType(arrayOf(argumentType), isNullable = false, attributes = attributes)
} else {
classId.toConeFlexibleType(
@@ -167,53 +141,25 @@ private fun JavaArrayType.toConeKotlinTypeWithoutEnhancement(
val javaComponentName = componentType.type?.typeName?.asString()?.capitalizeAsciiOnly() ?: error("Array of voids")
val classId = StandardClassIds.byName(javaComponentName + "Array")
if (forAnnotationValueParameter) {
if (mode == FirJavaTypeConversionMode.ANNOTATION_MEMBER) {
classId.constructClassLikeType(emptyArray(), isNullable = false, attributes = attributes)
} else {
classId.toConeFlexibleType(emptyArray(), attributes = attributes)
classId.toConeFlexibleType(emptyArray(), emptyArray(), attributes = attributes)
}
}
}
private fun ClassId.toConeFlexibleType(
typeArguments: Array<ConeTypeProjection>,
typeArgumentsForUpper: Array<ConeTypeProjection> = typeArguments,
attributes: ConeAttributes = ConeAttributes.Empty
) = ConeFlexibleType(
toConeKotlinType(typeArguments, isNullable = false, attributes),
toConeKotlinType(typeArgumentsForUpper, isNullable = true, attributes)
)
private fun JavaClassifierType.toConeKotlinTypeWithoutEnhancement(
session: FirSession,
javaTypeParameterStack: JavaTypeParameterStack,
forTypeParameterBounds: Boolean = false,
isForSupertypes: Boolean = false,
forAnnotationMember: Boolean = false,
attributes: ConeAttributes = ConeAttributes.Empty
mode: FirJavaTypeConversionMode,
attributes: ConeAttributes
): ConeKotlinType {
val lowerBound = toConeKotlinTypeForFlexibleBound(
session,
javaTypeParameterStack,
forTypeParameterBounds,
isForSupertypes,
forAnnotationMember = forAnnotationMember,
attributes = attributes
)
if (forAnnotationMember) {
val lowerBound = toConeKotlinTypeForFlexibleBound(session, javaTypeParameterStack, mode, attributes)
if (mode == FirJavaTypeConversionMode.ANNOTATION_MEMBER) {
return lowerBound
}
val upperBound =
toConeKotlinTypeForFlexibleBound(
session,
javaTypeParameterStack,
forTypeParameterBounds,
isForSupertypes,
lowerBound,
forAnnotationMember = forAnnotationMember,
attributes = attributes
)
val upperBound = toConeKotlinTypeForFlexibleBound(session, javaTypeParameterStack, mode, attributes, lowerBound)
return if (isRaw)
ConeRawType(lowerBound, upperBound)
else
@@ -315,16 +261,13 @@ private fun getErasedVersionOfFirstUpperBound(
private fun JavaClassifierType.toConeKotlinTypeForFlexibleBound(
session: FirSession,
javaTypeParameterStack: JavaTypeParameterStack,
forTypeParameterBounds: Boolean,
isForSupertypes: Boolean,
lowerBound: ConeLookupTagBasedType? = null,
forAnnotationMember: Boolean = false,
attributes: ConeAttributes = ConeAttributes.Empty
mode: FirJavaTypeConversionMode,
attributes: ConeAttributes,
lowerBound: ConeLookupTagBasedType? = null
): ConeLookupTagBasedType {
return when (val classifier = classifier) {
is JavaClass -> {
//val classId = classifier.classId!!
var classId = if (forAnnotationMember) {
var classId = if (mode == FirJavaTypeConversionMode.ANNOTATION_MEMBER) {
JavaToKotlinClassMap.mapJavaToKotlinIncludingClassMapping(classifier.fqName!!)
} else {
JavaToKotlinClassMap.mapJavaToKotlin(classifier.fqName!!)
@@ -342,7 +285,7 @@ private fun JavaClassifierType.toConeKotlinTypeForFlexibleBound(
val mappedTypeArguments = if (isRaw) {
val defaultArgs = (1..classifier.typeParameters.size).map { ConeStarProjection }
if (forTypeParameterBounds) {
if (mode == FirJavaTypeConversionMode.TYPE_PARAMETER_BOUND) {
// This is not fully correct, but it's a simple fix for some time to avoid recursive definition:
// to create a proper raw type arguments, we should take class parameters some time
defaultArgs
@@ -353,7 +296,8 @@ private fun JavaClassifierType.toConeKotlinTypeForFlexibleBound(
classSymbol?.fir?.createRawArguments(session, defaultArgs, position) ?: defaultArgs
}
} else {
val typeParameters = runIf(!forTypeParameterBounds && !isForSupertypes) {
val useTypeParameters = mode != FirJavaTypeConversionMode.TYPE_PARAMETER_BOUND && mode != FirJavaTypeConversionMode.SUPERTYPE
val typeParameters = runIf(useTypeParameters) {
val classSymbol = session.symbolProvider.getClassLikeSymbolByFqName(classId) as? FirRegularClassSymbol
classSymbol?.fir?.typeParameters
} ?: emptyList()
@@ -361,9 +305,7 @@ private fun JavaClassifierType.toConeKotlinTypeForFlexibleBound(
typeArguments.indices.map { index ->
val argument = typeArguments[index]
val parameter = typeParameters.getOrNull(index)?.symbol?.fir
argument.toConeProjectionWithoutEnhancement(
session, javaTypeParameterStack, boundTypeParameter = parameter, isForSupertypes = isForSupertypes
)
argument.toConeProjectionWithoutEnhancement(session, javaTypeParameterStack, parameter, mode)
}
}
@@ -416,8 +358,10 @@ private fun JavaType?.toConeProjectionWithoutEnhancement(
session: FirSession,
javaTypeParameterStack: JavaTypeParameterStack,
boundTypeParameter: FirTypeParameter?,
isForSupertypes: Boolean = false
mode: FirJavaTypeConversionMode
): ConeTypeProjection {
// TODO: check this
val newMode = mode.takeIf { it == FirJavaTypeConversionMode.SUPERTYPE } ?: FirJavaTypeConversionMode.DEFAULT
return when (this) {
null -> ConeStarProjection
is JavaWildcardType -> {
@@ -427,7 +371,7 @@ private fun JavaType?.toConeProjectionWithoutEnhancement(
if (bound == null || parameterVariance != Variance.INVARIANT && parameterVariance != argumentVariance) {
ConeStarProjection
} else {
val boundType = bound.toConeKotlinTypeWithoutEnhancement(session, javaTypeParameterStack, isForSupertypes = isForSupertypes)
val boundType = bound.toConeKotlinTypeWithoutEnhancement(session, javaTypeParameterStack, newMode)
if (argumentVariance == Variance.OUT_VARIANCE) {
ConeKotlinTypeProjectionOut(boundType)
} else {
@@ -435,6 +379,6 @@ private fun JavaType?.toConeProjectionWithoutEnhancement(
}
}
}
else -> toConeKotlinTypeWithoutEnhancement(session, javaTypeParameterStack, isForSupertypes = isForSupertypes)
else -> toConeKotlinTypeWithoutEnhancement(session, javaTypeParameterStack, newMode)
}
}
@@ -309,26 +309,3 @@ private fun FirConstExpression<*>.setProperType(session: FirSession): FirConstEx
session.lookupTracker?.recordTypeResolveAsLookup(typeRef, source, null)
return this
}
private fun JavaType.toFirResolvedTypeRef(
session: FirSession, javaTypeParameterStack: JavaTypeParameterStack
): FirResolvedTypeRef {
return when (this) {
is JavaClassifierType -> toFirResolvedTypeRef(
session,
javaTypeParameterStack,
isForSupertypes = false,
forTypeParameterBounds = false
)
is JavaPrimitiveType -> buildResolvedTypeRef {
type = toConeKotlinTypeWithoutEnhancement(
session,
javaTypeParameterStack,
)
this@toFirResolvedTypeRef.annotations.mapTo(annotations) { it.toFirAnnotationCall(session, javaTypeParameterStack) }
}
else -> buildResolvedTypeRef {
type = ConeClassErrorType(ConeSimpleDiagnostic("Unexpected JavaType: ${this@toFirResolvedTypeRef}", DiagnosticKind.Java))
}
}
}
@@ -10,8 +10,9 @@ import org.jetbrains.kotlin.fir.FirAnnotationContainer
import org.jetbrains.kotlin.fir.FirSession
import org.jetbrains.kotlin.fir.declarations.FirValueParameter
import org.jetbrains.kotlin.fir.expressions.FirAnnotationCall
import org.jetbrains.kotlin.fir.java.FirJavaTypeConversionMode
import org.jetbrains.kotlin.fir.java.JavaTypeParameterStack
import org.jetbrains.kotlin.fir.java.toConeKotlinTypeWithoutEnhancement
import org.jetbrains.kotlin.fir.java.toConeKotlinTypeProbablyFlexible
import org.jetbrains.kotlin.fir.symbols.ConeClassLikeLookupTag
import org.jetbrains.kotlin.fir.types.*
import org.jetbrains.kotlin.fir.types.builder.buildResolvedTypeRef
@@ -42,8 +43,8 @@ internal class EnhancementSignatureParts(
predefined: TypeEnhancementInfo? = null,
forAnnotationMember: Boolean = false
): FirResolvedTypeRef {
val typeWithoutEnhancement = current.type
.toConeKotlinTypeWithoutEnhancement(session, javaTypeParameterStack, forAnnotationMember)
val mode = if (forAnnotationMember) FirJavaTypeConversionMode.ANNOTATION_MEMBER else FirJavaTypeConversionMode.DEFAULT
val typeWithoutEnhancement = current.toConeKotlinTypeProbablyFlexible(session, javaTypeParameterStack, mode)
val qualifiers = computeIndexedQualifiersForOverride(typeWithoutEnhancement, predefined)
return buildResolvedTypeRef {
type = typeWithoutEnhancement.enhance(session, qualifiers) ?: typeWithoutEnhancement
@@ -51,13 +52,6 @@ internal class EnhancementSignatureParts(
}
}
private fun FirTypeRef.toConeKotlinType(session: FirSession): ConeKotlinType? =
when (this) {
is FirResolvedTypeRef -> type
is FirJavaTypeRef -> type.toConeKotlinTypeWithoutEnhancement(session, javaTypeParameterStack)
else -> null
}
private fun ConeKotlinType?.toIndexed(context: FirJavaEnhancementContext): List<TypeAndDefaultQualifiers> {
val list = ArrayList<TypeAndDefaultQualifiers>(1)
@@ -127,7 +121,8 @@ internal class EnhancementSignatureParts(
}
private fun computeIndexedQualifiersForOverride(current: ConeKotlinType?, predefined: TypeEnhancementInfo?): IndexedJavaTypeQualifiers {
val indexedFromSupertypes = fromOverridden.map { it.toConeKotlinType(context.session).toIndexed(context) }
val indexedFromSupertypes =
fromOverridden.map { it.toConeKotlinTypeProbablyFlexible(context.session, javaTypeParameterStack).toIndexed(context) }
val indexedThisType = current.toIndexed(context)
// The covariant case may be hard, e.g. in the superclass the return may be Super<T>, but in the subclass it may be Derived, which