org.jetbrains.kotlin.resolve.calls.tasks.dynamicCalls.kt Maven / Gradle / Ivy
/*
* Copyright 2010-2016 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.calls.tasks
import org.jetbrains.kotlin.builtins.KotlinBuiltIns
import org.jetbrains.kotlin.builtins.createFunctionType
import org.jetbrains.kotlin.descriptors.*
import org.jetbrains.kotlin.descriptors.annotations.Annotations
import org.jetbrains.kotlin.descriptors.impl.*
import org.jetbrains.kotlin.incremental.components.LookupLocation
import org.jetbrains.kotlin.lexer.KtTokens
import org.jetbrains.kotlin.name.Name
import org.jetbrains.kotlin.psi.*
import org.jetbrains.kotlin.resolve.DescriptorFactory
import org.jetbrains.kotlin.resolve.calls.util.isConventionCall
import org.jetbrains.kotlin.resolve.descriptorUtil.builtIns
import org.jetbrains.kotlin.resolve.scopes.MemberScopeImpl
import org.jetbrains.kotlin.resolve.scopes.receivers.TransientReceiver
import org.jetbrains.kotlin.storage.StorageManager
import org.jetbrains.kotlin.storage.getValue
import org.jetbrains.kotlin.types.*
import org.jetbrains.kotlin.types.expressions.OperatorConventions
import org.jetbrains.kotlin.utils.Printer
import java.util.*
class DynamicCallableDescriptors(private val storageManager: StorageManager, builtIns: KotlinBuiltIns) {
val dynamicType by storageManager.createLazyValue {
createDynamicType(builtIns)
}
fun createDynamicDescriptorScope(call: Call, owner: DeclarationDescriptor) = object : MemberScopeImpl() {
override fun printScopeStructure(p: Printer) {
p.println(this::class.java.simpleName, ": dynamic candidates for " + call)
}
override fun getContributedFunctions(name: Name, location: LookupLocation): Collection {
if (isAugmentedAssignmentConvention(name)) return listOf()
if (call.callType == Call.CallType.INVOKE
&& call.valueArgumentList == null && call.functionLiteralArguments.isEmpty()
) {
// this means that we are looking for "imaginary" invokes,
// e.g. in `+d` we are looking for property "plus" with member "invoke"
return listOf()
}
return listOf(createDynamicFunction(owner, name, call))
}
/*
* Detects the case when name "plusAssign" is requested for "+=" call,
* since both "plus" and "plusAssign" are resolvable on dynamic receivers,
* we have to prefer ne of them, and prefer "plusAssign" for generality:
* it may be called even on a val
*/
private fun isAugmentedAssignmentConvention(name: Name): Boolean {
val callee = call.calleeExpression
if (callee is KtOperationReferenceExpression) {
val token = callee.getReferencedNameElementType()
if (token in KtTokens.AUGMENTED_ASSIGNMENTS && OperatorConventions.ASSIGNMENT_OPERATIONS[token] != name) {
return true
}
}
return false
}
override fun getContributedVariables(name: Name, location: LookupLocation): Collection {
return if (call.valueArgumentList == null && call.valueArguments.isEmpty()) {
listOf(createDynamicProperty(owner, name, call))
} else listOf()
}
}
private fun createDynamicProperty(owner: DeclarationDescriptor, name: Name, call: Call): PropertyDescriptorImpl {
val propertyDescriptor = PropertyDescriptorImpl.create(
owner,
Annotations.EMPTY,
Modality.FINAL,
DescriptorVisibilities.PUBLIC,
true,
name,
CallableMemberDescriptor.Kind.DECLARATION,
SourceElement.NO_SOURCE,
/* lateInit = */ false,
/* isConst = */ false,
/* isExpect = */ false,
/* isActual = */ false,
/* isExternal = */ false,
/* isDelegated = */ false
)
propertyDescriptor.setType(
dynamicType,
createTypeParameters(propertyDescriptor, call),
createDynamicDispatchReceiverParameter(propertyDescriptor),
null,
emptyList()
)
val getter = DescriptorFactory.createDefaultGetter(propertyDescriptor, Annotations.EMPTY)
getter.initialize(propertyDescriptor.type)
val setter = DescriptorFactory.createDefaultSetter(propertyDescriptor, Annotations.EMPTY, Annotations.EMPTY)
propertyDescriptor.initialize(getter, setter)
return propertyDescriptor
}
private fun createDynamicFunction(owner: DeclarationDescriptor, name: Name, call: Call): SimpleFunctionDescriptorImpl {
val functionDescriptor = SimpleFunctionDescriptorImpl.create(
owner,
Annotations.EMPTY,
name,
CallableMemberDescriptor.Kind.DECLARATION,
SourceElement.NO_SOURCE
)
functionDescriptor.initialize(
null,
createDynamicDispatchReceiverParameter(functionDescriptor),
emptyList(),
createTypeParameters(functionDescriptor, call),
createValueParameters(functionDescriptor, call),
dynamicType,
Modality.FINAL,
DescriptorVisibilities.PUBLIC
)
functionDescriptor.setHasSynthesizedParameterNames(true)
functionDescriptor.isOperator = isConventionCall(call)
return functionDescriptor
}
private fun createDynamicDispatchReceiverParameter(owner: CallableDescriptor): ReceiverParameterDescriptorImpl {
return ReceiverParameterDescriptorImpl(owner, TransientReceiver(dynamicType), Annotations.EMPTY)
}
private fun createTypeParameters(owner: DeclarationDescriptor, call: Call): List =
call.typeArguments.indices.map { index
->
TypeParameterDescriptorImpl.createWithDefaultBound(
owner,
Annotations.EMPTY,
false,
Variance.INVARIANT,
Name.identifier("T$index"),
index,
storageManager
)
}
private fun createValueParameters(owner: FunctionDescriptor, call: Call): List {
val parameters = ArrayList()
fun addParameter(arg: ValueArgument, outType: KotlinType, varargElementType: KotlinType?) {
val index = parameters.size
parameters.add(
ValueParameterDescriptorImpl(
owner,
null,
index,
Annotations.EMPTY,
arg.getArgumentName()?.asName ?: Name.identifier("p$index"),
outType,
/* declaresDefaultValue = */ false,
/* isCrossinline = */ false,
/* isNoinline = */ false,
varargElementType,
SourceElement.NO_SOURCE
)
)
}
fun getFunctionType(funLiteralExpr: KtLambdaExpression): KotlinType {
val funLiteral = funLiteralExpr.functionLiteral
val receiverType = funLiteral.receiverTypeReference?.let { dynamicType }
val contextReceiversTypes = funLiteral.contextReceivers.map { dynamicType }
val parameterTypes = funLiteral.valueParameters.map { dynamicType }
return createFunctionType(owner.builtIns, Annotations.EMPTY, receiverType, contextReceiversTypes, parameterTypes, null, dynamicType)
}
for (arg in call.valueArguments) {
val outType: KotlinType
val varargElementType: KotlinType?
var hasSpreadOperator = false
val argExpression = KtPsiUtil.deparenthesize(arg.getArgumentExpression())
when {
argExpression is KtLambdaExpression -> {
outType = getFunctionType(argExpression)
varargElementType = null
}
arg.getSpreadElement() != null -> {
hasSpreadOperator = true
outType = owner.builtIns.getArrayType(Variance.OUT_VARIANCE, dynamicType)
varargElementType = dynamicType
}
else -> {
outType = dynamicType
varargElementType = null
}
}
addParameter(arg, outType, varargElementType)
if (hasSpreadOperator) {
for (funLiteralArg in call.functionLiteralArguments) {
addParameter(
funLiteralArg,
funLiteralArg.getLambdaExpression()?.let { getFunctionType(it) } ?: TypeUtils.CANNOT_INFER_FUNCTION_PARAM_TYPE,
null)
}
break
}
}
return parameters
}
}
fun DeclarationDescriptor.isDynamic(): Boolean {
if (this !is CallableDescriptor) return false
val dispatchReceiverParameter = dispatchReceiverParameter
return dispatchReceiverParameter != null && dispatchReceiverParameter.type.isDynamic()
}
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