org.jetbrains.kotlin.resolve.scopes.MemberScope.kt Maven / Gradle / Ivy
/*
* Copyright 2010-2015 JetBrains s.r.o.
*
* Licensed under the Apache License, Version 2.0 (the "License");
* you may not use this file except in compliance with the License.
* You may obtain a copy of the License at
*
* http://www.apache.org/licenses/LICENSE-2.0
*
* Unless required by applicable law or agreed to in writing, software
* distributed under the License is distributed on an "AS IS" BASIS,
* WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
* See the License for the specific language governing permissions and
* limitations under the License.
*/
package org.jetbrains.kotlin.resolve.scopes
import org.jetbrains.kotlin.descriptors.*
import org.jetbrains.kotlin.incremental.components.LookupLocation
import org.jetbrains.kotlin.incremental.components.NoLookupLocation
import org.jetbrains.kotlin.name.Name
import org.jetbrains.kotlin.resolve.scopes.MemberScope.Companion.ALL_NAME_FILTER
import org.jetbrains.kotlin.utils.Printer
import org.jetbrains.kotlin.utils.addToStdlib.flatMapToNullable
import java.lang.reflect.Modifier
interface MemberScope : ResolutionScope {
override fun getContributedVariables(name: Name, location: LookupLocation): Collection<@JvmWildcard PropertyDescriptor>
override fun getContributedFunctions(name: Name, location: LookupLocation): Collection<@JvmWildcard SimpleFunctionDescriptor>
/**
* These methods may return a superset of an actual names' set
*/
fun getFunctionNames(): Set
fun getVariableNames(): Set
fun getClassifierNames(): Set?
/**
* Is supposed to be used in tests and debug only
*/
fun printScopeStructure(p: Printer)
object Empty : MemberScopeImpl() {
override fun printScopeStructure(p: Printer) {
p.println("Empty member scope")
}
override fun definitelyDoesNotContainName(name: Name): Boolean = true
override fun getFunctionNames() = emptySet()
override fun getVariableNames() = emptySet()
override fun getClassifierNames() = emptySet()
}
companion object {
val ALL_NAME_FILTER: (Name) -> Boolean = { true }
}
}
fun MemberScope.computeAllNames() = getClassifierNames()?.let { classifierNames ->
getFunctionNames().toMutableSet().also {
it.addAll(getVariableNames())
it.addAll(classifierNames)
}
}
inline fun MemberScope.findFirstFunction(name: String, predicate: (CallableMemberDescriptor) -> Boolean) =
getContributedFunctions(Name.identifier(name), NoLookupLocation.FROM_BACKEND).first(predicate)
inline fun MemberScope.findFirstVariable(name: String, predicate: (CallableMemberDescriptor) -> Boolean) =
getContributedVariables(Name.identifier(name), NoLookupLocation.FROM_BACKEND).firstOrNull(predicate)
fun Iterable.flatMapClassifierNamesOrNull(): MutableSet? =
flatMapToNullable(hashSetOf(), MemberScope::getClassifierNames)
/**
* The same as getDescriptors(kindFilter, nameFilter) but the result is guaranteed to be filtered by kind and name.
*/
fun MemberScope.getDescriptorsFiltered(
kindFilter: DescriptorKindFilter = DescriptorKindFilter.ALL,
nameFilter: (Name) -> Boolean = ALL_NAME_FILTER
): Collection {
if (kindFilter.kindMask == 0) return listOf()
return getContributedDescriptors(kindFilter, nameFilter).filter { kindFilter.accepts(it) && nameFilter(it.name) }
}
class DescriptorKindFilter(
kindMask: Int,
val excludes: List = listOf()
) {
val kindMask: Int
init {
var mask = kindMask
excludes.forEach { mask = mask and it.fullyExcludedDescriptorKinds.inv() }
this.kindMask = mask
}
fun accepts(descriptor: DeclarationDescriptor): Boolean
= kindMask and descriptor.kind() != 0 && excludes.all { !it.excludes(descriptor) }
fun acceptsKinds(kinds: Int): Boolean
= kindMask and kinds != 0
infix fun exclude(exclude: DescriptorKindExclude): DescriptorKindFilter
= DescriptorKindFilter(kindMask, excludes + listOf(exclude))
fun withoutKinds(kinds: Int): DescriptorKindFilter
= DescriptorKindFilter(kindMask and kinds.inv(), excludes)
fun withKinds(kinds: Int): DescriptorKindFilter
= DescriptorKindFilter(kindMask or kinds, excludes)
fun restrictedToKinds(kinds: Int): DescriptorKindFilter
= DescriptorKindFilter(kindMask and kinds, excludes)
fun restrictedToKindsOrNull(kinds: Int): DescriptorKindFilter? {
val mask = kindMask and kinds
if (mask == 0) return null
return DescriptorKindFilter(mask, excludes)
}
fun intersect(other: DescriptorKindFilter) = DescriptorKindFilter(kindMask and other.kindMask, excludes + other.excludes)
override fun toString(): String {
val predefinedFilterName = DEBUG_PREDEFINED_FILTERS_MASK_NAMES.firstOrNull { it.mask == kindMask } ?.name
val kindString = predefinedFilterName ?: DEBUG_MASK_BIT_NAMES
.mapNotNull { if (acceptsKinds(it.mask)) it.name else null }
.joinToString(separator = " | ")
return "DescriptorKindFilter($kindString, $excludes)"
}
private fun DeclarationDescriptor.kind(): Int {
return when (this) {
is ClassDescriptor -> if (this.kind.isSingleton) SINGLETON_CLASSIFIERS_MASK else NON_SINGLETON_CLASSIFIERS_MASK
is TypeAliasDescriptor -> TYPE_ALIASES_MASK
is ClassifierDescriptor -> NON_SINGLETON_CLASSIFIERS_MASK
is PackageFragmentDescriptor, is PackageViewDescriptor -> PACKAGES_MASK
is FunctionDescriptor -> FUNCTIONS_MASK
is VariableDescriptor -> VARIABLES_MASK
else -> 0
}
}
override fun equals(other: Any?): Boolean {
if (this === other) return true
if (javaClass != other?.javaClass) return false
other as DescriptorKindFilter
if (excludes != other.excludes) return false
if (kindMask != other.kindMask) return false
return true
}
override fun hashCode(): Int {
var result = excludes.hashCode()
result = 31 * result + kindMask
return result
}
companion object {
private var nextMaskValue: Int = 0x01
private fun nextMask() = nextMaskValue.apply { nextMaskValue = nextMaskValue shl 1 }
val NON_SINGLETON_CLASSIFIERS_MASK: Int = nextMask()
val SINGLETON_CLASSIFIERS_MASK: Int = nextMask()
val TYPE_ALIASES_MASK: Int = nextMask()
val PACKAGES_MASK: Int = nextMask()
val FUNCTIONS_MASK: Int = nextMask()
val VARIABLES_MASK: Int = nextMask()
val ALL_KINDS_MASK: Int = nextMask() - 1
val CLASSIFIERS_MASK: Int = NON_SINGLETON_CLASSIFIERS_MASK or SINGLETON_CLASSIFIERS_MASK or TYPE_ALIASES_MASK
val VALUES_MASK: Int = SINGLETON_CLASSIFIERS_MASK or FUNCTIONS_MASK or VARIABLES_MASK
val CALLABLES_MASK: Int = FUNCTIONS_MASK or VARIABLES_MASK
@JvmField val ALL: DescriptorKindFilter = DescriptorKindFilter(ALL_KINDS_MASK)
@JvmField val CALLABLES: DescriptorKindFilter = DescriptorKindFilter(CALLABLES_MASK)
@JvmField val NON_SINGLETON_CLASSIFIERS: DescriptorKindFilter = DescriptorKindFilter(NON_SINGLETON_CLASSIFIERS_MASK)
@JvmField val SINGLETON_CLASSIFIERS: DescriptorKindFilter = DescriptorKindFilter(SINGLETON_CLASSIFIERS_MASK)
@JvmField val TYPE_ALIASES: DescriptorKindFilter = DescriptorKindFilter(TYPE_ALIASES_MASK)
@JvmField val CLASSIFIERS: DescriptorKindFilter = DescriptorKindFilter(CLASSIFIERS_MASK)
@JvmField val PACKAGES: DescriptorKindFilter = DescriptorKindFilter(PACKAGES_MASK)
@JvmField val FUNCTIONS: DescriptorKindFilter = DescriptorKindFilter(FUNCTIONS_MASK)
@JvmField val VARIABLES: DescriptorKindFilter = DescriptorKindFilter(VARIABLES_MASK)
@JvmField val VALUES: DescriptorKindFilter = DescriptorKindFilter(VALUES_MASK)
private class MaskToName(val mask: Int, val name: String)
private val DEBUG_PREDEFINED_FILTERS_MASK_NAMES = staticFields()
.mapNotNull { field ->
val filter = field.get(null) as? DescriptorKindFilter
if (filter != null) MaskToName(filter.kindMask, field.name) else null
}
private val DEBUG_MASK_BIT_NAMES = staticFields()
.filter { it.type == Integer.TYPE }
.mapNotNull { field ->
val mask = field.get(null) as Int
val isOneBitMask = mask == (mask and (-mask))
if (isOneBitMask) MaskToName(mask, field.name) else null
}
private inline fun staticFields() = T::class.java.fields.filter { Modifier.isStatic(it.modifiers) }
}
}
abstract class DescriptorKindExclude {
abstract fun excludes(descriptor: DeclarationDescriptor): Boolean
/**
* Bit-mask of descriptor kind's that are fully excluded by this [DescriptorKindExclude].
* That is, [excludes] returns true for all descriptor of these kinds.
*/
abstract val fullyExcludedDescriptorKinds: Int
override fun toString() = this::class.java.simpleName
object Extensions : DescriptorKindExclude() {
override fun excludes(descriptor: DeclarationDescriptor)
= descriptor is CallableDescriptor && descriptor.extensionReceiverParameter != null
override val fullyExcludedDescriptorKinds: Int get() = 0
}
object NonExtensions : DescriptorKindExclude() {
override fun excludes(descriptor: DeclarationDescriptor)
= descriptor !is CallableDescriptor || descriptor.extensionReceiverParameter == null
override val fullyExcludedDescriptorKinds
= DescriptorKindFilter.ALL_KINDS_MASK and (DescriptorKindFilter.FUNCTIONS_MASK or DescriptorKindFilter.VARIABLES_MASK).inv()
}
object EnumEntry : DescriptorKindExclude() {
override fun excludes(descriptor: DeclarationDescriptor)
= descriptor is ClassDescriptor && descriptor.kind == ClassKind.ENUM_ENTRY
override val fullyExcludedDescriptorKinds: Int get() = 0
}
object TopLevelPackages : DescriptorKindExclude() {
override fun excludes(descriptor: DeclarationDescriptor): Boolean {
val fqName = when (descriptor) {
is PackageFragmentDescriptor -> descriptor.fqName
is PackageViewDescriptor -> descriptor.fqName
else -> return false
}
return fqName.parent().isRoot
}
override val fullyExcludedDescriptorKinds: Int get() = 0
}
}
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