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the Kotlin compiler embeddable
/*
* Copyright 2000-2018 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.resolve.jvm
import com.intellij.openapi.util.text.StringUtil
import com.intellij.psi.PsiElement
import org.jetbrains.kotlin.config.LanguageFeature
import org.jetbrains.kotlin.config.LanguageVersionSettings
import org.jetbrains.kotlin.descriptors.*
import org.jetbrains.kotlin.load.java.typeEnhancement.hasEnhancedNullability
import org.jetbrains.kotlin.psi.*
import org.jetbrains.kotlin.resolve.BindingTrace
import org.jetbrains.kotlin.resolve.calls.checkers.AdditionalTypeChecker
import org.jetbrains.kotlin.resolve.calls.checkers.CallChecker
import org.jetbrains.kotlin.resolve.calls.checkers.CallCheckerContext
import org.jetbrains.kotlin.resolve.calls.context.ResolutionContext
import org.jetbrains.kotlin.resolve.calls.model.ResolvedCall
import org.jetbrains.kotlin.resolve.calls.util.isSafeCall
import org.jetbrains.kotlin.resolve.isNullableUnderlyingType
import org.jetbrains.kotlin.resolve.scopes.receivers.ExpressionReceiver
import org.jetbrains.kotlin.resolve.scopes.receivers.ReceiverValue
import org.jetbrains.kotlin.types.*
import org.jetbrains.kotlin.types.checker.isClassType
import org.jetbrains.kotlin.types.typeUtil.immediateSupertypes
class RuntimeAssertionInfo(val needNotNullAssertion: Boolean, val message: String) {
interface DataFlowExtras {
class OnlyMessage(message: String) : DataFlowExtras {
override val canBeNull: Boolean get() = true
override val presentableText: String = message
}
val canBeNull: Boolean
val presentableText: String
}
companion object {
@JvmStatic
fun create(
expectedType: KotlinType,
expressionType: KotlinType,
dataFlowExtras: DataFlowExtras
): RuntimeAssertionInfo? {
fun assertNotNull(): Boolean {
if (expectedType.isError || expressionType.isError) return false
// T : Any, T! = T..T?
// Let T$ will be copy of T! with enhanced nullability.
// Cases when nullability assertion needed: T! -> T, T$ -> T
// Expected type either T?, T! or T$
if (TypeUtils.isNullableType(expectedType) ||
expectedType.hasEnhancedNullability() ||
expectedType.isNullableUnderlyingType()
) {
return false
}
// Expression type is not nullable and not enhanced (neither T?, T! or T$)
val isExpressionTypeNullable = TypeUtils.isNullableType(expressionType)
if (!isExpressionTypeNullable && !expressionType.hasEnhancedNullability()) return false
// Smart-cast T! or T?
if (!dataFlowExtras.canBeNull && isExpressionTypeNullable) return false
return true
}
return if (assertNotNull())
RuntimeAssertionInfo(needNotNullAssertion = true, message = dataFlowExtras.presentableText)
else
null
}
}
}
private val KtExpression.textForRuntimeAssertionInfo
get() = StringUtil.trimMiddle(text, 50)
class RuntimeAssertionsDataFlowExtras(
private val c: ResolutionContext<*>,
private val expressionType: KotlinType,
private val expression: KtExpression
) : RuntimeAssertionInfo.DataFlowExtras {
private val dataFlowValue by lazy(LazyThreadSafetyMode.PUBLICATION) {
c.dataFlowValueFactory.createDataFlowValue(expression, expressionType, c)
}
override val canBeNull: Boolean
get() = c.dataFlowInfo.getStableNullability(dataFlowValue).canBeNull()
override val presentableText: String
get() = expression.textForRuntimeAssertionInfo
}
object RuntimeAssertionsTypeChecker : AdditionalTypeChecker {
override fun checkType(
expression: KtExpression,
expressionType: KotlinType,
expressionTypeWithSmartCast: KotlinType,
c: ResolutionContext<*>
) {
if (TypeUtils.noExpectedType(c.expectedType) || c.expectedType is StubTypeForBuilderInference) return
val assertionInfo = RuntimeAssertionInfo.create(
c.expectedType,
expressionType,
RuntimeAssertionsDataFlowExtras(c, expressionType, expression)
)
if (assertionInfo != null) {
c.trace.record(JvmBindingContextSlices.RUNTIME_ASSERTION_INFO, expression, assertionInfo)
}
}
}
object RuntimeAssertionsOnExtensionReceiverCallChecker : CallChecker {
override fun check(resolvedCall: ResolvedCall<*>, reportOn: PsiElement, context: CallCheckerContext) {
if (resolvedCall.call.isSafeCall()) return
val callee = resolvedCall.resultingDescriptor
checkReceiver(callee.extensionReceiverParameter, resolvedCall.extensionReceiver, context)
}
private fun checkReceiver(receiverParameter: ReceiverParameterDescriptor?, receiverValue: ReceiverValue?, context: CallCheckerContext) {
if (receiverParameter == null || receiverValue == null) return
val expressionReceiverValue = receiverValue as? ExpressionReceiver ?: return
val receiverExpression = expressionReceiverValue.expression
val c = context.resolutionContext
val assertionInfo = RuntimeAssertionInfo.create(
receiverParameter.type,
receiverValue.type,
RuntimeAssertionsDataFlowExtras(c, receiverValue.type, receiverExpression)
)
if (assertionInfo != null) {
c.trace.record(JvmBindingContextSlices.RECEIVER_RUNTIME_ASSERTION_INFO, expressionReceiverValue, assertionInfo)
}
}
}
object RuntimeAssertionsOnDeclarationBodyChecker {
@JvmStatic
fun check(
declaration: KtDeclaration,
descriptor: DeclarationDescriptor,
bindingTrace: BindingTrace,
languageVersionSettings: LanguageVersionSettings
) {
if (!languageVersionSettings.supportsFeature(LanguageFeature.StrictJavaNullabilityAssertions)) return
when {
declaration is KtProperty && descriptor is VariableDescriptor ->
checkLocalVariable(declaration, descriptor, bindingTrace)
declaration is KtFunction && descriptor is FunctionDescriptor ->
checkFunction(declaration, descriptor, bindingTrace)
declaration is KtProperty && descriptor is PropertyDescriptor ->
checkProperty(declaration, descriptor, bindingTrace)
declaration is KtPropertyAccessor && descriptor is PropertyAccessorDescriptor ->
checkPropertyAccessor(declaration, descriptor, bindingTrace)
}
}
private fun checkLocalVariable(
declaration: KtProperty,
descriptor: VariableDescriptor,
bindingTrace: BindingTrace
) {
if (declaration.typeReference != null) return
checkNullabilityAssertion(declaration.initializer ?: return, descriptor.type, bindingTrace)
}
private fun checkFunction(
declaration: KtFunction,
descriptor: FunctionDescriptor,
bindingTrace: BindingTrace
) {
if (declaration.typeReference != null || declaration.hasBlockBody()) return
checkNullabilityAssertion(
declaration.bodyExpression ?: return,
descriptor.returnType ?: return,
bindingTrace
)
}
private fun checkProperty(
declaration: KtProperty,
descriptor: PropertyDescriptor,
bindingTrace: BindingTrace
) {
if (declaration.typeReference != null) return
// TODO nullability assertion on delegate initialization expression, see KT-20823
if (declaration.hasDelegateExpression()) return
checkNullabilityAssertion(declaration.initializer ?: return, descriptor.type, bindingTrace)
}
private fun checkPropertyAccessor(
declaration: KtPropertyAccessor,
descriptor: PropertyAccessorDescriptor,
bindingTrace: BindingTrace
) {
if (declaration.property.typeReference != null || declaration.hasBlockBody()) return
checkNullabilityAssertion(
declaration.bodyExpression ?: return,
descriptor.correspondingProperty.type,
bindingTrace
)
}
private fun checkNullabilityAssertion(
expression: KtExpression,
declarationType: KotlinType,
bindingTrace: BindingTrace
) {
if (declarationType.unwrap().canContainNull()) return
val expressionType = bindingTrace.getType(expression) ?: return
if (expressionType.isError) return
if (!expressionType.hasEnhancedNullability()) return
bindingTrace.record(
JvmBindingContextSlices.BODY_RUNTIME_ASSERTION_INFO,
expression,
RuntimeAssertionInfo(true, expression.textForRuntimeAssertionInfo)
)
}
private fun UnwrappedType.canContainNull(): Boolean {
val upper = upperIfFlexible()
return when {
upper.isMarkedNullable -> true
upper.isClassType -> false
else -> upper.immediateSupertypes().all { it.unwrap().canContainNull() }
}
}
}