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/*
* Copyright 2010-2018 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.calls;
import com.intellij.psi.PsiElement;
import kotlin.Pair;
import kotlin.collections.CollectionsKt;
import org.jetbrains.annotations.NotNull;
import org.jetbrains.annotations.Nullable;
import org.jetbrains.kotlin.builtins.FunctionTypesKt;
import org.jetbrains.kotlin.builtins.KotlinBuiltIns;
import org.jetbrains.kotlin.config.AnalysisFlags;
import org.jetbrains.kotlin.config.LanguageFeature;
import org.jetbrains.kotlin.config.LanguageVersionSettings;
import org.jetbrains.kotlin.descriptors.*;
import org.jetbrains.kotlin.descriptors.annotations.Annotations;
import org.jetbrains.kotlin.diagnostics.DiagnosticFactory0;
import org.jetbrains.kotlin.name.Name;
import org.jetbrains.kotlin.progress.ProgressIndicatorAndCompilationCanceledStatus;
import org.jetbrains.kotlin.psi.*;
import org.jetbrains.kotlin.resolve.*;
import org.jetbrains.kotlin.resolve.bindingContextUtil.BindingContextUtilsKt;
import org.jetbrains.kotlin.resolve.calls.util.CallResolverUtilKt;
import org.jetbrains.kotlin.resolve.calls.util.ResolveArgumentsMode;
import org.jetbrains.kotlin.resolve.calls.util.CallUtilKt;
import org.jetbrains.kotlin.resolve.calls.components.InferenceSession;
import org.jetbrains.kotlin.resolve.calls.context.*;
import org.jetbrains.kotlin.resolve.calls.inference.BuilderInferenceUtilKt;
import org.jetbrains.kotlin.resolve.calls.model.MutableDataFlowInfoForArguments;
import org.jetbrains.kotlin.resolve.calls.results.OverloadResolutionResults;
import org.jetbrains.kotlin.resolve.calls.results.OverloadResolutionResultsImpl;
import org.jetbrains.kotlin.resolve.calls.smartcasts.DataFlowInfo;
import org.jetbrains.kotlin.resolve.calls.smartcasts.DataFlowValueFactory;
import org.jetbrains.kotlin.resolve.calls.tasks.*;
import org.jetbrains.kotlin.resolve.calls.tower.NewResolutionOldInference;
import org.jetbrains.kotlin.resolve.calls.tower.PSICallResolver;
import org.jetbrains.kotlin.resolve.calls.util.CallMaker;
import org.jetbrains.kotlin.resolve.descriptorUtil.DescriptorUtilsKt;
import org.jetbrains.kotlin.resolve.lazy.ForceResolveUtil;
import org.jetbrains.kotlin.resolve.scopes.LexicalScope;
import org.jetbrains.kotlin.resolve.scopes.SyntheticScopes;
import org.jetbrains.kotlin.resolve.scopes.receivers.ExpressionReceiver;
import org.jetbrains.kotlin.types.KotlinType;
import org.jetbrains.kotlin.types.KotlinTypeKt;
import org.jetbrains.kotlin.types.expressions.ExpressionTypingContext;
import org.jetbrains.kotlin.types.expressions.ExpressionTypingServices;
import org.jetbrains.kotlin.types.expressions.ExpressionTypingVisitorDispatcher;
import org.jetbrains.kotlin.util.OperatorNameConventions;
import org.jetbrains.kotlin.util.PerformanceCounter;
import javax.inject.Inject;
import java.util.*;
import static org.jetbrains.kotlin.diagnostics.Errors.*;
import static org.jetbrains.kotlin.resolve.calls.results.OverloadResolutionResults.Code.INCOMPLETE_TYPE_INFERENCE;
import static org.jetbrains.kotlin.types.TypeUtils.NO_EXPECTED_TYPE;
@SuppressWarnings("RedundantTypeArguments")
public class CallResolver {
private ExpressionTypingServices expressionTypingServices;
private TypeResolver typeResolver;
private ArgumentTypeResolver argumentTypeResolver;
private GenericCandidateResolver genericCandidateResolver;
private CallCompleter callCompleter;
private SyntheticScopes syntheticScopes;
private NewResolutionOldInference newResolutionOldInference;
private PSICallResolver PSICallResolver;
private final DataFlowValueFactory dataFlowValueFactory;
private final KotlinBuiltIns builtIns;
private final LanguageVersionSettings languageVersionSettings;
private static final PerformanceCounter callResolvePerfCounter = PerformanceCounter.Companion.create("Call resolve", ExpressionTypingVisitorDispatcher.typeInfoPerfCounter);
public CallResolver(
@NotNull KotlinBuiltIns builtIns,
@NotNull LanguageVersionSettings languageVersionSettings,
@NotNull DataFlowValueFactory dataFlowValueFactory
) {
this.builtIns = builtIns;
this.languageVersionSettings = languageVersionSettings;
this.dataFlowValueFactory = dataFlowValueFactory;
}
// component dependency cycle
@Inject
public void setExpressionTypingServices(@NotNull ExpressionTypingServices expressionTypingServices) {
this.expressionTypingServices = expressionTypingServices;
}
// component dependency cycle
@Inject
public void setTypeResolver(@NotNull TypeResolver typeResolver) {
this.typeResolver = typeResolver;
}
// component dependency cycle
@Inject
public void setArgumentTypeResolver(@NotNull ArgumentTypeResolver argumentTypeResolver) {
this.argumentTypeResolver = argumentTypeResolver;
}
// component dependency cycle
@Inject
public void setGenericCandidateResolver(GenericCandidateResolver genericCandidateResolver) {
this.genericCandidateResolver = genericCandidateResolver;
}
// component dependency cycle
@Inject
public void setCallCompleter(@NotNull CallCompleter callCompleter) {
this.callCompleter = callCompleter;
}
// component dependency cycle
@Inject
public void setResolutionOldInference(@NotNull NewResolutionOldInference newResolutionOldInference) {
this.newResolutionOldInference = newResolutionOldInference;
}
// component dependency cycle
@Inject
public void setPSICallResolver(@NotNull PSICallResolver PSICallResolver) {
this.PSICallResolver = PSICallResolver;
}
@Inject
public void setSyntheticScopes(@NotNull SyntheticScopes syntheticScopes) {
this.syntheticScopes = syntheticScopes;
}
@NotNull
public OverloadResolutionResults resolveSimpleProperty(@NotNull BasicCallResolutionContext context) {
KtExpression calleeExpression = context.call.getCalleeExpression();
assert calleeExpression instanceof KtSimpleNameExpression;
KtSimpleNameExpression nameExpression = (KtSimpleNameExpression) calleeExpression;
Name referencedName = nameExpression.getReferencedNameAsName();
return computeTasksAndResolveCall(
context, referencedName, nameExpression,
NewResolutionOldInference.ResolutionKind.Variable.INSTANCE);
}
@NotNull
public OverloadResolutionResults resolveCallForMember(
@NotNull KtSimpleNameExpression nameExpression,
@NotNull BasicCallResolutionContext context
) {
return computeTasksAndResolveCall(
context, nameExpression.getReferencedNameAsName(), nameExpression,
NewResolutionOldInference.ResolutionKind.CallableReference.INSTANCE);
}
@NotNull
public OverloadResolutionResults resolveCallWithGivenName(
@NotNull ResolutionContext> context,
@NotNull Call call,
@NotNull KtReferenceExpression functionReference,
@NotNull Name name
) {
BasicCallResolutionContext callResolutionContext = BasicCallResolutionContext.create(context, call, CheckArgumentTypesMode.CHECK_VALUE_ARGUMENTS);
return computeTasksAndResolveCall(
callResolutionContext, name, functionReference,
NewResolutionOldInference.ResolutionKind.Function.INSTANCE);
}
@NotNull
public OverloadResolutionResults resolveCallWithGivenName(
@NotNull ResolutionContext> context,
@NotNull Call call,
@NotNull Name name,
@NotNull TracingStrategy tracing
) {
BasicCallResolutionContext callResolutionContext = BasicCallResolutionContext.create(context, call, CheckArgumentTypesMode.CHECK_VALUE_ARGUMENTS);
return computeTasksAndResolveCall(callResolutionContext, name, tracing, NewResolutionOldInference.ResolutionKind.Function.INSTANCE);
}
@NotNull
private OverloadResolutionResults resolveCallForInvoke(
@NotNull BasicCallResolutionContext context,
@NotNull TracingStrategy tracing
) {
return computeTasksAndResolveCall(
context, OperatorNameConventions.INVOKE, tracing,
NewResolutionOldInference.ResolutionKind.Invoke.INSTANCE);
}
// this declaration is used by compiler plugins
@SuppressWarnings("WeakerAccess")
@NotNull
public OverloadResolutionResults computeTasksAndResolveCall(
@NotNull BasicCallResolutionContext context,
@NotNull Name name,
@NotNull KtReferenceExpression referenceExpression,
@NotNull NewResolutionOldInference.ResolutionKind kind
) {
TracingStrategy tracing = TracingStrategyImpl.create(referenceExpression, context.call);
return computeTasksAndResolveCall(context, name, tracing, kind);
}
// this declaration is used by compiler plugins
@SuppressWarnings("WeakerAccess")
@NotNull
public OverloadResolutionResults computeTasksAndResolveCall(
@NotNull BasicCallResolutionContext context,
@NotNull Name name,
@NotNull TracingStrategy tracing,
@NotNull NewResolutionOldInference.ResolutionKind kind
) {
return callResolvePerfCounter.>time(() -> {
ResolutionTask resolutionTask = new ResolutionTask<>(kind, name, null);
return doResolveCallOrGetCachedResults(context, resolutionTask, tracing);
});
}
@NotNull
private OverloadResolutionResults computeTasksFromCandidatesAndResolvedCall(
@NotNull BasicCallResolutionContext context,
@NotNull KtReferenceExpression referenceExpression,
@NotNull Collection> candidates
) {
return computeTasksFromCandidatesAndResolvedCall(context, candidates,
TracingStrategyImpl.create(referenceExpression, context.call));
}
@NotNull
private OverloadResolutionResults computeTasksFromCandidatesAndResolvedCall(
@NotNull BasicCallResolutionContext context,
@NotNull Collection> candidates,
@NotNull TracingStrategy tracing
) {
return callResolvePerfCounter.>time(() -> {
ResolutionTask resolutionTask = new ResolutionTask<>(
new NewResolutionOldInference.ResolutionKind.GivenCandidates(), null, candidates
);
return doResolveCallOrGetCachedResults(context, resolutionTask, tracing);
});
}
@NotNull
public OverloadResolutionResults resolveBinaryCall(
ExpressionTypingContext context,
ExpressionReceiver receiver,
KtBinaryExpression binaryExpression,
Name name
) {
return resolveCallWithGivenName(
context,
CallMaker.makeCall(receiver, binaryExpression),
binaryExpression.getOperationReference(),
name
);
}
@NotNull
public OverloadResolutionResults resolveCollectionLiteralCallWithGivenDescriptor(
@NotNull ExpressionTypingContext context,
@NotNull KtCollectionLiteralExpression expression,
@NotNull Call call,
@NotNull Collection functionDescriptors
) {
BasicCallResolutionContext callResolutionContext = BasicCallResolutionContext.create(context, call, CheckArgumentTypesMode.CHECK_VALUE_ARGUMENTS);
List> candidates = CollectionsKt.map(functionDescriptors, descriptor ->
OldResolutionCandidate.create(
call,
descriptor,
null,
ExplicitReceiverKind.NO_EXPLICIT_RECEIVER,
null));
return computeTasksFromCandidatesAndResolvedCall(
callResolutionContext, candidates, TracingStrategyImpl.create(expression, call));
}
@NotNull
public OverloadResolutionResults resolveEqualsCallWithGivenDescriptors(
@NotNull ExpressionTypingContext context,
@NotNull KtReferenceExpression expression,
@NotNull ExpressionReceiver receiver,
@NotNull Call call,
@NotNull Collection functionDescriptors
) {
BasicCallResolutionContext callResolutionContext = BasicCallResolutionContext.create(context, call, CheckArgumentTypesMode.CHECK_VALUE_ARGUMENTS);
List> resolutionCandidates = CollectionsKt.map(functionDescriptors, descriptor ->
OldResolutionCandidate.create(
call, descriptor, receiver, ExplicitReceiverKind.DISPATCH_RECEIVER, null));
return computeTasksFromCandidatesAndResolvedCall(
callResolutionContext, resolutionCandidates, TracingStrategyImpl.create(expression, call));
}
@NotNull
public OverloadResolutionResults resolveFunctionCall(
@NotNull BindingTrace trace,
@NotNull LexicalScope scope,
@NotNull Call call,
@NotNull KotlinType expectedType,
@NotNull DataFlowInfo dataFlowInfo,
boolean isAnnotationContext,
@Nullable InferenceSession inferenceSession
) {
return resolveFunctionCall(
BasicCallResolutionContext.create(
trace, scope, call, expectedType, dataFlowInfo, ContextDependency.INDEPENDENT, CheckArgumentTypesMode.CHECK_VALUE_ARGUMENTS,
isAnnotationContext, languageVersionSettings, dataFlowValueFactory,
inferenceSession != null ? inferenceSession : InferenceSession.Companion.getDefault()
)
);
}
@NotNull
@SuppressWarnings("unchecked")
public OverloadResolutionResults resolveFunctionCall(@NotNull BasicCallResolutionContext context) {
ProgressIndicatorAndCompilationCanceledStatus.checkCanceled();
Call.CallType callType = context.call.getCallType();
if (callType == Call.CallType.ARRAY_GET_METHOD || callType == Call.CallType.ARRAY_SET_METHOD) {
Name name = callType == Call.CallType.ARRAY_GET_METHOD ? OperatorNameConventions.GET : OperatorNameConventions.SET;
KtArrayAccessExpression arrayAccessExpression = (KtArrayAccessExpression) context.call.getCallElement();
return computeTasksAndResolveCall(
context, name, arrayAccessExpression,
NewResolutionOldInference.ResolutionKind.Function.INSTANCE);
}
KtExpression calleeExpression = context.call.getCalleeExpression();
if (calleeExpression instanceof KtSimpleNameExpression) {
KtSimpleNameExpression expression = (KtSimpleNameExpression) calleeExpression;
return computeTasksAndResolveCall(
context, expression.getReferencedNameAsName(), expression,
NewResolutionOldInference.ResolutionKind.Function.INSTANCE);
}
else if (calleeExpression instanceof KtConstructorCalleeExpression) {
return (OverloadResolutionResults) resolveCallForConstructor(context, (KtConstructorCalleeExpression) calleeExpression);
}
else if (calleeExpression instanceof KtConstructorDelegationReferenceExpression) {
KtConstructorDelegationCall delegationCall = (KtConstructorDelegationCall) context.call.getCallElement();
DeclarationDescriptor container = context.scope.getOwnerDescriptor();
assert container instanceof ConstructorDescriptor : "Trying to resolve KtConstructorDelegationCall not in constructor. scope.ownerDescriptor = " + container;
return (OverloadResolutionResults) resolveConstructorDelegationCall(
context,
delegationCall,
(KtConstructorDelegationReferenceExpression) calleeExpression,
(ClassDescriptor) container.getContainingDeclaration()
);
}
else if (calleeExpression == null) {
return checkArgumentTypesAndFail(context);
}
// Here we handle the case where the callee expression must be something of type function, e.g. (foo.bar())(1, 2)
KotlinType expectedType = NO_EXPECTED_TYPE;
if (calleeExpression instanceof KtLambdaExpression) {
int parameterNumber = ((KtLambdaExpression) calleeExpression).getValueParameters().size();
List parameterTypes = new ArrayList<>(parameterNumber);
for (int i = 0; i < parameterNumber; i++) {
parameterTypes.add(NO_EXPECTED_TYPE);
}
expectedType = FunctionTypesKt.createFunctionType(
builtIns, Annotations.Companion.getEMPTY(), null, Collections.emptyList(), parameterTypes, null, context.expectedType
);
}
KotlinType calleeType = expressionTypingServices.safeGetType(
context.scope, calleeExpression, expectedType, context.dataFlowInfo, context.inferenceSession, context.trace);
ExpressionReceiver expressionReceiver = ExpressionReceiver.Companion.create(calleeExpression, calleeType, context.trace.getBindingContext());
Call call = new CallTransformer.CallForImplicitInvoke(context.call.getExplicitReceiver(), expressionReceiver, context.call,
false);
TracingStrategyForInvoke tracingForInvoke = new TracingStrategyForInvoke(calleeExpression, call, calleeType);
return resolveCallForInvoke(context.replaceCall(call), tracingForInvoke);
}
private OverloadResolutionResults resolveCallForConstructor(
@NotNull BasicCallResolutionContext context,
@NotNull KtConstructorCalleeExpression expression
) {
assert context.call.getExplicitReceiver() == null :
"Constructor can't be invoked with explicit receiver: " + context.call.getCallElement().getText();
context.trace.record(BindingContext.LEXICAL_SCOPE, context.call.getCallElement(), context.scope);
KtReferenceExpression functionReference = expression.getConstructorReferenceExpression();
KtTypeReference typeReference = expression.getTypeReference();
if (functionReference == null || typeReference == null) {
CallResolverUtilKt.checkForConstructorCallOnFunctionalType(typeReference, context);
return checkArgumentTypesAndFail(context); // No type there
}
KotlinType constructedType = typeResolver.resolveType(context.scope, typeReference, context.trace, true);
if (KotlinTypeKt.isError(constructedType)) {
return checkArgumentTypesAndFail(context);
}
DeclarationDescriptor declarationDescriptor = constructedType.getConstructor().getDeclarationDescriptor();
if (!(declarationDescriptor instanceof ClassDescriptor)) {
context.trace.report(NOT_A_CLASS.on(expression));
return checkArgumentTypesAndFail(context);
}
ClassDescriptor classDescriptor = (ClassDescriptor) declarationDescriptor;
Collection constructors = classDescriptor.getConstructors();
if (constructors.isEmpty()) {
context.trace.report(NO_CONSTRUCTOR.on(CallUtilKt.getValueArgumentListOrElement(context.call)));
return checkArgumentTypesAndFail(context);
}
return resolveConstructorCall(context, functionReference, constructedType);
}
@NotNull
public OverloadResolutionResults resolveConstructorCall(
@NotNull BasicCallResolutionContext context,
@NotNull KtReferenceExpression functionReference,
@NotNull KotlinType constructedType
) {
Pair>, BasicCallResolutionContext> candidatesAndContext =
prepareCandidatesAndContextForConstructorCall(constructedType, context, syntheticScopes);
Collection> candidates = candidatesAndContext.getFirst();
context = candidatesAndContext.getSecond();
return computeTasksFromCandidatesAndResolvedCall(context, functionReference, candidates);
}
@Nullable
public OverloadResolutionResults resolveConstructorDelegationCall(
@NotNull BindingTrace trace, @NotNull LexicalScope scope, @NotNull DataFlowInfo dataFlowInfo,
@NotNull ClassConstructorDescriptor constructorDescriptor,
@NotNull KtConstructorDelegationCall call,
@Nullable InferenceSession inferenceSession
) {
// Method returns `null` when there is nothing to resolve in trivial cases like `null` call expression or
// when super call should be conventional enum constructor and super call should be empty
BasicCallResolutionContext context = BasicCallResolutionContext.create(
trace, scope,
CallMaker.makeCall(null, null, call),
NO_EXPECTED_TYPE,
dataFlowInfo, ContextDependency.INDEPENDENT, CheckArgumentTypesMode.CHECK_VALUE_ARGUMENTS,
false,
languageVersionSettings,
dataFlowValueFactory,
inferenceSession != null ? inferenceSession : InferenceSession.Companion.getDefault());
KtConstructorDelegationReferenceExpression calleeExpression = call.getCalleeExpression();
if (calleeExpression == null) return checkArgumentTypesAndFail(context);
ClassDescriptor currentClassDescriptor = constructorDescriptor.getContainingDeclaration();
if (constructorDescriptor.getConstructedClass().getKind() == ClassKind.ENUM_CLASS && call.isImplicit()) {
if (currentClassDescriptor.getUnsubstitutedPrimaryConstructor() != null) {
DiagnosticFactory0 warningOrError;
if (languageVersionSettings.supportsFeature(LanguageFeature.RequiredPrimaryConstructorDelegationCallInEnums)) {
warningOrError = PRIMARY_CONSTRUCTOR_DELEGATION_CALL_EXPECTED; // error
} else {
warningOrError = PRIMARY_CONSTRUCTOR_DELEGATION_CALL_EXPECTED_IN_ENUM; // warning
}
PsiElement reportOn = calcReportOn(calleeExpression);
context.trace.report(warningOrError.on(reportOn));
}
return null;
}
return resolveConstructorDelegationCall(context, call, call.getCalleeExpression(), currentClassDescriptor);
}
@NotNull
private OverloadResolutionResults resolveConstructorDelegationCall(
@NotNull BasicCallResolutionContext context,
@NotNull KtConstructorDelegationCall call,
@NotNull KtConstructorDelegationReferenceExpression calleeExpression,
@NotNull ClassDescriptor currentClassDescriptor
) {
context.trace.record(BindingContext.LEXICAL_SCOPE, call, context.scope);
boolean isThisCall = calleeExpression.isThis();
if (currentClassDescriptor.getKind() == ClassKind.ENUM_CLASS && !isThisCall) {
context.trace.report(DELEGATION_SUPER_CALL_IN_ENUM_CONSTRUCTOR.on(calleeExpression));
return checkArgumentTypesAndFail(context);
}
ClassDescriptor delegateClassDescriptor = isThisCall ? currentClassDescriptor :
DescriptorUtilsKt.getSuperClassOrAny(currentClassDescriptor);
Collection constructors = delegateClassDescriptor.getConstructors();
if (!isThisCall && currentClassDescriptor.getUnsubstitutedPrimaryConstructor() != null) {
if (DescriptorUtils.canHaveDeclaredConstructors(currentClassDescriptor)) {
// Diagnostic is meaningless when reporting on interfaces and object
PsiElement reportOn = calcReportOn(calleeExpression);
context.trace.report(PRIMARY_CONSTRUCTOR_DELEGATION_CALL_EXPECTED.on(reportOn));
}
if (call.isImplicit()) return OverloadResolutionResultsImpl.nameNotFound();
}
if (constructors.isEmpty()) {
context.trace.report(NO_CONSTRUCTOR.on(CallUtilKt.getValueArgumentListOrElement(context.call)));
return checkArgumentTypesAndFail(context);
}
KotlinType superType =
isThisCall ? currentClassDescriptor.getDefaultType() : DescriptorUtils.getSuperClassType(currentClassDescriptor);
Pair>, BasicCallResolutionContext> candidatesAndContext =
prepareCandidatesAndContextForConstructorCall(superType, context, syntheticScopes);
Collection> candidates = candidatesAndContext.getFirst();
context = candidatesAndContext.getSecond();
TracingStrategy tracing = call.isImplicit() ?
new TracingStrategyForImplicitConstructorDelegationCall(call, context.call) :
TracingStrategyImpl.create(calleeExpression, context.call);
PsiElement reportOn = call.isImplicit() ? call : calleeExpression;
if (delegateClassDescriptor.isInner()
&& !DescriptorResolver.checkHasOuterClassInstance(context.scope, context.trace, reportOn,
(ClassDescriptor) delegateClassDescriptor.getContainingDeclaration())) {
return checkArgumentTypesAndFail(context);
}
return computeTasksFromCandidatesAndResolvedCall(context, candidates, tracing);
}
@Nullable
private PsiElement calcReportOn(@NotNull KtConstructorDelegationReferenceExpression calleeExpression) {
PsiElement delegationCall = calleeExpression.getParent();
return CallResolverUtilKt.reportOnElement(delegationCall);
}
@NotNull
private static Pair>, BasicCallResolutionContext> prepareCandidatesAndContextForConstructorCall(
@NotNull KotlinType superType,
@NotNull BasicCallResolutionContext context,
@NotNull SyntheticScopes syntheticScopes
) {
if (!(superType.getConstructor().getDeclarationDescriptor() instanceof ClassDescriptor)) {
return new Pair<>(Collections.>emptyList(), context);
}
// If any constructor has type parameter (currently it only can be true for ones from Java), try to infer arguments for them
// Otherwise use NO_EXPECTED_TYPE and known type substitutor
boolean anyConstructorHasDeclaredTypeParameters =
anyConstructorHasDeclaredTypeParameters(superType.getConstructor().getDeclarationDescriptor());
if (anyConstructorHasDeclaredTypeParameters) {
context = context.replaceExpectedType(superType);
}
List> candidates =
CallResolverUtilKt.createResolutionCandidatesForConstructors(
context.scope, context.call, superType, !anyConstructorHasDeclaredTypeParameters, syntheticScopes
);
return new Pair<>(candidates, context);
}
private static boolean anyConstructorHasDeclaredTypeParameters(@Nullable ClassifierDescriptor classDescriptor) {
if (!(classDescriptor instanceof ClassDescriptor)) return false;
for (ConstructorDescriptor constructor : ((ClassDescriptor) classDescriptor).getConstructors()) {
if (constructor.getTypeParameters().size() > constructor.getContainingDeclaration().getDeclaredTypeParameters().size()) return true;
}
return false;
}
public OverloadResolutionResults resolveCallWithKnownCandidate(
@NotNull Call call,
@NotNull TracingStrategy tracing,
@NotNull ResolutionContext> context,
@NotNull OldResolutionCandidate candidate,
@Nullable MutableDataFlowInfoForArguments dataFlowInfoForArguments
) {
return callResolvePerfCounter.>time(() -> {
BasicCallResolutionContext basicCallResolutionContext =
BasicCallResolutionContext.create(context, call, CheckArgumentTypesMode.CHECK_VALUE_ARGUMENTS, dataFlowInfoForArguments);
Set> candidates = Collections.singleton(candidate);
ResolutionTask resolutionTask = new ResolutionTask<>(
new NewResolutionOldInference.ResolutionKind.GivenCandidates(), null, candidates
);
return doResolveCallOrGetCachedResults(basicCallResolutionContext, resolutionTask, tracing);
});
}
private OverloadResolutionResults doResolveCallOrGetCachedResults(
@NotNull BasicCallResolutionContext context,
@NotNull ResolutionTask resolutionTask,
@NotNull TracingStrategy tracing
) {
Call call = context.call;
tracing.bindCall(context.trace, call);
boolean newInferenceEnabled = languageVersionSettings.supportsFeature(LanguageFeature.NewInference);
NewResolutionOldInference.ResolutionKind resolutionKind = resolutionTask.resolutionKind;
if (newInferenceEnabled && PSICallResolver.getDefaultResolutionKinds().contains(resolutionKind)) {
assert resolutionTask.name != null;
BindingContextUtilsKt.recordScope(context.trace, context.scope, context.call.getCalleeExpression());
return PSICallResolver.runResolutionAndInference(context, resolutionTask.name, resolutionKind, tracing);
}
if (newInferenceEnabled && resolutionKind instanceof NewResolutionOldInference.ResolutionKind.GivenCandidates) {
assert resolutionTask.givenCandidates != null;
BindingContextUtilsKt.recordScope(context.trace, context.scope, context.call.getCalleeExpression());
return PSICallResolver.runResolutionAndInferenceForGivenCandidates(context, resolutionTask.givenCandidates, tracing);
}
TemporaryBindingTrace traceToResolveCall = TemporaryBindingTrace.create(context.trace, "trace to resolve call", call);
BasicCallResolutionContext newContext = context.replaceBindingTrace(traceToResolveCall);
BindingContextUtilsKt.recordScope(newContext.trace, newContext.scope, newContext.call.getCalleeExpression());
BindingContextUtilsKt.recordDataFlowInfo(newContext, newContext.call.getCalleeExpression());
OverloadResolutionResultsImpl results = doResolveCall(newContext, resolutionTask, tracing);
// this is necessary because we already run CallCompleter for such calls
if (BuilderInferenceUtilKt.isResultWithBuilderInference(results)) {
traceToResolveCall.commit();
return results;
}
DelegatingBindingTrace deltasTraceForTypeInference = results.getTrace();
if (deltasTraceForTypeInference != null) {
deltasTraceForTypeInference.addOwnDataTo(traceToResolveCall);
}
completeTypeInferenceDependentOnFunctionLiterals(newContext, results, tracing);
if (context.contextDependency == ContextDependency.DEPENDENT) {
cacheResults(context, results, traceToResolveCall, tracing);
}
traceToResolveCall.commit();
if (context.contextDependency == ContextDependency.INDEPENDENT) {
results = callCompleter.completeCall(context, results, tracing);
}
return results;
}
private void completeTypeInferenceDependentOnFunctionLiterals(
@NotNull BasicCallResolutionContext context,
@NotNull OverloadResolutionResultsImpl results,
@NotNull TracingStrategy tracing
) {
if (CallResolverUtilKt.isInvokeCallOnVariable(context.call)) return;
if (!results.isSingleResult()) {
if (results.getResultCode() == INCOMPLETE_TYPE_INFERENCE) {
argumentTypeResolver.checkTypesWithNoCallee(context);
}
return;
}
CallCandidateResolutionContext candidateContext = CallCandidateResolutionContext.createForCallBeingAnalyzed(
results.getResultingCall(), context, tracing);
genericCandidateResolver.completeTypeInferenceDependentOnFunctionArgumentsForCall(candidateContext);
}
private static void cacheResults(
@NotNull BasicCallResolutionContext context,
@NotNull OverloadResolutionResultsImpl results,
@NotNull DelegatingBindingTrace traceToResolveCall,
@NotNull TracingStrategy tracing
) {
Call call = context.call;
if (CallResolverUtilKt.isInvokeCallOnVariable(call)) return;
DelegatingBindingTrace deltasTraceToCacheResolve = new DelegatingBindingTrace(
BindingContext.EMPTY, "delta trace for caching resolve of", context.call, BindingTraceFilter.Companion.getACCEPT_ALL(), false);
traceToResolveCall.addOwnDataTo(deltasTraceToCacheResolve);
context.resolutionResultsCache.record(call, results, context, tracing, deltasTraceToCacheResolve);
}
private OverloadResolutionResultsImpl checkArgumentTypesAndFail(BasicCallResolutionContext context) {
argumentTypeResolver.checkTypesWithNoCallee(context);
return OverloadResolutionResultsImpl.nameNotFound();
}
@NotNull
private OverloadResolutionResultsImpl doResolveCall(
@NotNull BasicCallResolutionContext context,
@NotNull ResolutionTask resolutionTask,
@NotNull TracingStrategy tracing
) {
DataFlowInfo initialInfo = context.dataFlowInfoForArguments.getResultInfo();
if (context.checkArguments == CheckArgumentTypesMode.CHECK_VALUE_ARGUMENTS) {
argumentTypeResolver.analyzeArgumentsAndRecordTypes(context, ResolveArgumentsMode.SHAPE_FUNCTION_ARGUMENTS);
}
List typeArguments = context.call.getTypeArguments();
for (KtTypeProjection projection : typeArguments) {
if (projection.getProjectionKind() != KtProjectionKind.NONE) {
context.trace.report(PROJECTION_ON_NON_CLASS_TYPE_ARGUMENT.on(projection));
ModifierCheckerCore.INSTANCE.check(projection, context.trace, null, languageVersionSettings);
}
KotlinType type = argumentTypeResolver.resolveTypeRefWithDefault(
projection.getTypeReference(), context.scope, context.trace,
null);
if (type != null) {
ForceResolveUtil.forceResolveAllContents(type);
}
}
OverloadResolutionResultsImpl result;
if (!(resolutionTask.resolutionKind instanceof NewResolutionOldInference.ResolutionKind.GivenCandidates)) {
assert resolutionTask.name != null;
result = newResolutionOldInference.runResolution(context, resolutionTask.name, resolutionTask.resolutionKind, tracing);
}
else {
assert resolutionTask.givenCandidates != null;
result = newResolutionOldInference.runResolutionForGivenCandidates(context, tracing, resolutionTask.givenCandidates);
}
// in code like
// assert(a!!.isEmpty())
// a.length
// we should ignore data flow info from assert argument, since assertions can be disabled and
// thus it will lead to NPE in runtime otherwise
if (languageVersionSettings.getFlag(AnalysisFlags.getIgnoreDataFlowInAssert()) && result.isSingleResult()) {
D descriptor = result.getResultingDescriptor();
if (descriptor.getName().equals(Name.identifier("assert"))) {
DeclarationDescriptor declaration = descriptor.getContainingDeclaration();
if (declaration instanceof PackageFragmentDescriptor &&
((PackageFragmentDescriptor) declaration).getFqName().asString().equals("kotlin")) {
context.dataFlowInfoForArguments.updateInfo(context.call.getValueArguments().get(0), initialInfo);
}
}
}
return result;
}
//////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////
private static class ResolutionTask {
@Nullable
final Name name;
@Nullable
final Collection> givenCandidates;
@NotNull
final NewResolutionOldInference.ResolutionKind resolutionKind;
private ResolutionTask(
@NotNull NewResolutionOldInference.ResolutionKind kind,
@Nullable Name name,
@Nullable Collection> candidates
) {
this.name = name;
givenCandidates = candidates;
resolutionKind = kind;
}
}
}