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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.fir
import org.jetbrains.kotlin.fir.declarations.*
import org.jetbrains.kotlin.fir.declarations.utils.isLocal
import org.jetbrains.kotlin.fir.declarations.utils.isSynthetic
import org.jetbrains.kotlin.fir.symbols.ConeClassLikeLookupTag
import org.jetbrains.kotlin.fir.symbols.impl.FirCallableSymbol
import org.jetbrains.kotlin.fir.symbols.impl.FirClassLikeSymbol
import org.jetbrains.kotlin.fir.symbols.impl.FirRegularClassSymbol
import org.jetbrains.kotlin.fir.types.ConeClassLikeType
import org.jetbrains.kotlin.fir.types.ConeIntersectionType
import org.jetbrains.kotlin.fir.types.ConeKotlinType
import org.jetbrains.kotlin.fir.types.toLookupTag
fun FirCallableSymbol<*>.dispatchReceiverClassTypeOrNull(): ConeClassLikeType? =
fir.dispatchReceiverClassTypeOrNull()
fun FirCallableDeclaration.dispatchReceiverClassTypeOrNull(): ConeClassLikeType? =
if (dispatchReceiverType is ConeIntersectionType && isIntersectionOverride)
baseForIntersectionOverride!!.dispatchReceiverClassTypeOrNull()
else
dispatchReceiverType as? ConeClassLikeType
fun FirCallableSymbol<*>.dispatchReceiverClassLookupTagOrNull(): ConeClassLikeLookupTag? =
fir.dispatchReceiverClassLookupTagOrNull()
fun FirCallableDeclaration.dispatchReceiverClassLookupTagOrNull(): ConeClassLikeLookupTag? =
dispatchReceiverClassTypeOrNull()?.lookupTag
fun FirCallableSymbol<*>.containingClassLookupTag(): ConeClassLikeLookupTag? =
fir.containingClassLookupTag()
fun FirCallableDeclaration.containingClassLookupTag(): ConeClassLikeLookupTag? =
containingClassForStaticMemberAttr ?: dispatchReceiverClassLookupTagOrNull()
fun FirRegularClass.containingClassForLocal(): ConeClassLikeLookupTag? =
if (isLocal) containingClassForLocalAttr else null
fun FirDanglingModifierList.containingClass(): ConeClassLikeLookupTag? =
containingClassAttr
fun FirClassLikeSymbol<*>.getContainingClassLookupTag(): ConeClassLikeLookupTag? {
return if (classId.isLocal) {
(fir as? FirRegularClass)?.containingClassForLocal()
} else {
val ownerId = classId.outerClassId
ownerId?.toLookupTag()
}
}
private object ContainingClassKey : FirDeclarationDataKey()
var FirCallableDeclaration.containingClassForStaticMemberAttr: ConeClassLikeLookupTag? by FirDeclarationDataRegistry.data(ContainingClassKey)
var FirRegularClass.containingClassForLocalAttr: ConeClassLikeLookupTag? by FirDeclarationDataRegistry.data(ContainingClassKey)
var FirDanglingModifierList.containingClassAttr: ConeClassLikeLookupTag? by FirDeclarationDataRegistry.data(ContainingClassKey)
val FirRegularClassSymbol.containingClassForLocalAttr: ConeClassLikeLookupTag?
get() = fir.containingClassForLocalAttr
private object HasNoEnumEntriesKey : FirDeclarationDataKey()
var FirClass.hasNoEnumEntriesAttr: Boolean? by FirDeclarationDataRegistry.data(HasNoEnumEntriesKey)
// Must be true iff the class metadata contains the hasEnumEntries flag
val FirClass.hasEnumEntries get() = hasNoEnumEntriesAttr != true
private object IsNewPlaceForBodyGeneration : FirDeclarationDataKey()
var FirRegularClass.isNewPlaceForBodyGeneration: Boolean? by FirDeclarationDataRegistry.data(IsNewPlaceForBodyGeneration)
val FirCallableDeclaration.isIntersectionOverride: Boolean get() = origin == FirDeclarationOrigin.IntersectionOverride
val FirCallableDeclaration.isSubstitutionOverride: Boolean get() = origin is FirDeclarationOrigin.SubstitutionOverride
val FirCallableDeclaration.isSubstitutionOrIntersectionOverride: Boolean get() = isSubstitutionOverride || isIntersectionOverride
val FirCallableDeclaration.isDelegated: Boolean get() = origin == FirDeclarationOrigin.Delegated
val FirCallableDeclaration.isCopyCreatedInScope: Boolean get() = isSubstitutionOrIntersectionOverride || isDelegated
val FirCallableDeclaration.canHaveDeferredReturnTypeCalculation: Boolean get() = isCopyCreatedInScope || origin == FirDeclarationOrigin.Enhancement || origin == FirDeclarationOrigin.Synthetic.JavaProperty
val FirCallableSymbol<*>.isIntersectionOverride: Boolean get() = origin == FirDeclarationOrigin.IntersectionOverride
val FirCallableSymbol<*>.isSubstitutionOverride: Boolean get() = origin is FirDeclarationOrigin.SubstitutionOverride
val FirCallableSymbol<*>.isSubstitutionOrIntersectionOverride: Boolean get() = isSubstitutionOverride || isIntersectionOverride
val FirCallableSymbol<*>.isDelegated: Boolean get() = origin == FirDeclarationOrigin.Delegated
val FirCallableSymbol<*>.isCopyCreatedInScope: Boolean get() = isSubstitutionOrIntersectionOverride || isDelegated
inline val D.originalForSubstitutionOverride: D?
get() = if (isSubstitutionOverride || isSynthetic) originalForSubstitutionOverrideAttr else null
inline val > S.originalForSubstitutionOverride: S?
get() = fir.originalForSubstitutionOverride?.symbol as S?
inline val D.baseForIntersectionOverride: D?
get() = if (isIntersectionOverride) originalForIntersectionOverrideAttr else null
inline val > S.baseForIntersectionOverride: S?
get() = fir.baseForIntersectionOverride?.symbol as S?
inline fun D.originalIfFakeOverride(): D? =
originalForSubstitutionOverride ?: baseForIntersectionOverride
inline fun D.originalIfFakeOverrideOrDelegated(): D? =
originalForSubstitutionOverride ?: baseForIntersectionOverride ?: delegatedWrapperData?.wrapped
inline fun > S.originalIfFakeOverride(): S? =
fir.originalIfFakeOverride()?.symbol as S?
inline fun D.originalOrSelf(): D {
var result = this
while (result.isSubstitutionOrIntersectionOverride) {
result = result.originalIfFakeOverride() ?: break
}
return result
}
inline fun > S.originalOrSelf(): S = fir.originalOrSelf().symbol as S
inline fun D.unwrapFakeOverrides(): D {
var current = this
do {
val next = current.originalIfFakeOverride() ?: return current
current = next
} while (true)
}
inline fun D.unwrapFakeOverridesOrDelegated(): D {
var current = this
do {
val next = current.originalIfFakeOverrideOrDelegated() ?: return current
current = next
} while (true)
}
inline fun > D.unwrapFakeOverridesOrDelegated(): FirCallableSymbol<*> =
fir.unwrapFakeOverridesOrDelegated().symbol
inline fun D.unwrapSubstitutionOverrides(): D {
var current = this
do {
val next = current.originalForSubstitutionOverride ?: return current
current = next
} while (true)
}
inline fun D.unwrapUseSiteSubstitutionOverrides(): D {
var current = this
do {
if (current.origin != FirDeclarationOrigin.SubstitutionOverride.CallSite) return current
val next = current.originalForSubstitutionOverride ?: return current
current = next
} while (true)
}
inline fun > S.unwrapUseSiteSubstitutionOverrides(): S {
return fir.unwrapUseSiteSubstitutionOverrides().symbol as S
}
inline fun > S.unwrapFakeOverrides(): S = fir.unwrapFakeOverrides().symbol as S
inline fun > S.unwrapSubstitutionOverrides(): S = fir.unwrapSubstitutionOverrides().symbol as S
private object SubstitutedOverrideOriginalKey : FirDeclarationDataKey()
var
D.originalForSubstitutionOverrideAttr: D? by FirDeclarationDataRegistry.data(SubstitutedOverrideOriginalKey)
private object IntersectionOverrideOriginalKey : FirDeclarationDataKey()
var
D.originalForIntersectionOverrideAttr: D? by FirDeclarationDataRegistry.data(IntersectionOverrideOriginalKey)
private object InitialSignatureKey : FirDeclarationDataKey()
/**
* Some Java declarations are renamed (CharSequence.charAt) or have signatures with erased (Object) value parameters (Collection.remove).
*
* When the receiver is a mapped declaration with a Kotlin signature, this property returns the declaration with the initial Java signature.
*/
var FirCallableDeclaration.initialSignatureAttr: FirCallableDeclaration? by FirDeclarationDataRegistry.data(InitialSignatureKey)
private object MatchingParameterFunctionTypeKey : FirDeclarationDataKey()
/**
* Consider the following
* ```
* fun run(block: @Foo T.() -> Unit) {...}
*
* fun test() {
* run {
*
* }
* }
* ```
* The original function type `@Foo T.() -> Unit` can be accessed with this property on the FirAnonymousFunction at caret.
*/
var
D.matchingParameterFunctionType: ConeKotlinType? by FirDeclarationDataRegistry.data(MatchingParameterFunctionTypeKey)
private object CorrespondingProperty : FirDeclarationDataKey()
/**
* The corresponding [FirProperty] if the current value parameter is a `val` or `var` declared inside the primary constructor.
*/
var FirValueParameter.correspondingProperty: FirProperty? by FirDeclarationDataRegistry.data(CorrespondingProperty)
val FirCallableDeclaration.propertyIfAccessor: FirCallableDeclaration
get() = (this as? FirPropertyAccessor)?.propertySymbol?.fir ?: this
val FirCallableDeclaration.propertyIfBackingField: FirCallableDeclaration
get() = (this as? FirBackingField)?.propertySymbol?.fir ?: this
private object IsJavaRecordKey : FirDeclarationDataKey()
var FirRegularClass.isJavaRecord: Boolean? by FirDeclarationDataRegistry.data(IsJavaRecordKey)
private object IsJavaRecordComponentKey : FirDeclarationDataKey()
var FirFunction.isJavaRecordComponent: Boolean? by FirDeclarationDataRegistry.data(IsJavaRecordComponentKey)
private object IsCatchParameterProperty : FirDeclarationDataKey()
var FirProperty.isCatchParameter: Boolean? by FirDeclarationDataRegistry.data(IsCatchParameterProperty)
private object DelegatedWrapperDataKey : FirDeclarationDataKey()
class DelegatedWrapperData(
val wrapped: D,
val containingClass: ConeClassLikeLookupTag,
val delegateField: FirField,
) {
override fun toString(): String = "[${::wrapped.name}=${wrapped.symbol}, " +
"${::containingClass.name}=$containingClass, " +
"${::delegateField.name}=${delegateField.symbol}"
}
var
D.delegatedWrapperData: DelegatedWrapperData? by FirDeclarationDataRegistry.data(DelegatedWrapperDataKey)
val FirCallableSymbol.delegatedWrapperData: DelegatedWrapperData?
get() = fir.delegatedWrapperData