public void resolveFunctionBody(
@NotNull DataFlowInfo outerDataFlowInfo,
@NotNull BindingTrace trace,
@NotNull JetDeclarationWithBody function,
@NotNull FunctionDescriptor functionDescriptor,
@NotNull LexicalScope scope,
@Nullable Function1<LexicalScope, DataFlowInfo> beforeBlockBody,
@NotNull CallChecker callChecker) {
LexicalScope innerScope =
FunctionDescriptorUtil.getFunctionInnerScope(scope, functionDescriptor, trace);
List<JetParameter> valueParameters = function.getValueParameters();
List<ValueParameterDescriptor> valueParameterDescriptors =
functionDescriptor.getValueParameters();
valueParameterResolver.resolveValueParameters(
valueParameters,
valueParameterDescriptors,
ExpressionTypingContext.newContext(
trace, innerScope, outerDataFlowInfo, NO_EXPECTED_TYPE, callChecker));
// Synthetic "field" creation
if (functionDescriptor instanceof PropertyAccessorDescriptor) {
PropertyAccessorDescriptor accessorDescriptor =
(PropertyAccessorDescriptor) functionDescriptor;
JetProperty property = (JetProperty) function.getParent();
final SyntheticFieldDescriptor fieldDescriptor =
new SyntheticFieldDescriptor(accessorDescriptor, property);
innerScope =
new LexicalScopeImpl(
innerScope,
functionDescriptor,
true,
functionDescriptor.getExtensionReceiverParameter(),
"Accessor inner scope with synthetic field",
RedeclarationHandler.DO_NOTHING,
new Function1<LexicalScopeImpl.InitializeHandler, Unit>() {
@Override
public Unit invoke(LexicalScopeImpl.InitializeHandler handler) {
handler.addVariableOrClassDescriptor(fieldDescriptor);
return Unit.INSTANCE$;
}
});
// Check parameter name shadowing
for (JetParameter parameter : function.getValueParameters()) {
if (SyntheticFieldDescriptor.NAME.equals(parameter.getNameAsName())) {
trace.report(Errors.ACCESSOR_PARAMETER_NAME_SHADOWING.on(parameter));
}
}
}
DataFlowInfo dataFlowInfo = null;
if (beforeBlockBody != null) {
dataFlowInfo = beforeBlockBody.invoke(innerScope);
}
if (function.hasBody()) {
expressionTypingServices.checkFunctionReturnType(
innerScope,
function,
functionDescriptor,
dataFlowInfo != null ? dataFlowInfo : outerDataFlowInfo,
null,
trace);
}
assert functionDescriptor.getReturnType() != null;
}
public void resolveDelegationSpecifierList(
@NotNull final DataFlowInfo outerDataFlowInfo,
@NotNull JetClassOrObject jetClass,
@NotNull final ClassDescriptor descriptor,
@Nullable final ConstructorDescriptor primaryConstructor,
@NotNull LexicalScope scopeForSupertypeResolution,
@NotNull final LexicalScope scopeForMemberResolution) {
final LexicalScope scopeForConstructor =
primaryConstructor == null
? null
: FunctionDescriptorUtil.getFunctionInnerScope(
scopeForSupertypeResolution, primaryConstructor, trace);
final ExpressionTypingServices typeInferrer = expressionTypingServices; // TODO : flow
final Map<JetTypeReference, JetType> supertypes = Maps.newLinkedHashMap();
final ResolvedCall<?>[] primaryConstructorDelegationCall = new ResolvedCall[1];
JetVisitorVoid visitor =
new JetVisitorVoid() {
private void recordSupertype(JetTypeReference typeReference, JetType supertype) {
if (supertype == null) return;
supertypes.put(typeReference, supertype);
}
@Override
public void visitDelegationByExpressionSpecifier(
@NotNull JetDelegatorByExpressionSpecifier specifier) {
if (descriptor.getKind() == ClassKind.INTERFACE) {
trace.report(DELEGATION_IN_TRAIT.on(specifier));
}
JetType supertype =
trace.getBindingContext().get(BindingContext.TYPE, specifier.getTypeReference());
recordSupertype(specifier.getTypeReference(), supertype);
if (supertype != null) {
DeclarationDescriptor declarationDescriptor =
supertype.getConstructor().getDeclarationDescriptor();
if (declarationDescriptor instanceof ClassDescriptor) {
ClassDescriptor classDescriptor = (ClassDescriptor) declarationDescriptor;
if (classDescriptor.getKind() != ClassKind.INTERFACE) {
trace.report(DELEGATION_NOT_TO_TRAIT.on(specifier.getTypeReference()));
}
}
}
JetExpression delegateExpression = specifier.getDelegateExpression();
if (delegateExpression != null) {
LexicalScope scope =
scopeForConstructor == null ? scopeForMemberResolution : scopeForConstructor;
JetType expectedType = supertype != null ? supertype : NO_EXPECTED_TYPE;
typeInferrer.getType(
scope, delegateExpression, expectedType, outerDataFlowInfo, trace);
}
if (primaryConstructor == null) {
trace.report(
UNSUPPORTED.on(
specifier, "Delegation without primary constructor is not supported"));
}
}
@Override
public void visitDelegationToSuperCallSpecifier(@NotNull JetDelegatorToSuperCall call) {
JetValueArgumentList valueArgumentList = call.getValueArgumentList();
PsiElement elementToMark = valueArgumentList == null ? call : valueArgumentList;
if (descriptor.getKind() == ClassKind.INTERFACE) {
trace.report(SUPERTYPE_INITIALIZED_IN_TRAIT.on(elementToMark));
}
JetTypeReference typeReference = call.getTypeReference();
if (typeReference == null) return;
if (primaryConstructor == null) {
if (descriptor.getKind() != ClassKind.INTERFACE) {
trace.report(SUPERTYPE_INITIALIZED_WITHOUT_PRIMARY_CONSTRUCTOR.on(call));
}
recordSupertype(
typeReference, trace.getBindingContext().get(BindingContext.TYPE, typeReference));
return;
}
OverloadResolutionResults<FunctionDescriptor> results =
callResolver.resolveFunctionCall(
trace,
scopeForConstructor,
CallMaker.makeCall(ReceiverValue.NO_RECEIVER, null, call),
NO_EXPECTED_TYPE,
outerDataFlowInfo,
false);
if (results.isSuccess()) {
JetType supertype = results.getResultingDescriptor().getReturnType();
recordSupertype(typeReference, supertype);
ClassDescriptor classDescriptor = TypeUtils.getClassDescriptor(supertype);
if (classDescriptor != null) {
// allow only one delegating constructor
if (primaryConstructorDelegationCall[0] == null) {
primaryConstructorDelegationCall[0] = results.getResultingCall();
} else {
primaryConstructorDelegationCall[0] = null;
}
}
// Recording type info for callee to use later in JetObjectLiteralExpression
trace.record(PROCESSED, call.getCalleeExpression(), true);
trace.record(
EXPRESSION_TYPE_INFO,
call.getCalleeExpression(),
TypeInfoFactoryPackage.noTypeInfo(
results.getResultingCall().getDataFlowInfoForArguments().getResultInfo()));
} else {
recordSupertype(
typeReference, trace.getBindingContext().get(BindingContext.TYPE, typeReference));
}
}
@Override
public void visitDelegationToSuperClassSpecifier(
@NotNull JetDelegatorToSuperClass specifier) {
JetTypeReference typeReference = specifier.getTypeReference();
JetType supertype = trace.getBindingContext().get(BindingContext.TYPE, typeReference);
recordSupertype(typeReference, supertype);
if (supertype == null) return;
ClassDescriptor superClass = TypeUtils.getClassDescriptor(supertype);
if (superClass == null) return;
if (superClass.getKind().isSingleton()) {
// A "singleton in supertype" diagnostic will be reported later
return;
}
if (descriptor.getKind() != ClassKind.INTERFACE
&& descriptor.getUnsubstitutedPrimaryConstructor() != null
&& superClass.getKind() != ClassKind.INTERFACE
&& !superClass.getConstructors().isEmpty()
&& !ErrorUtils.isError(superClass)) {
trace.report(SUPERTYPE_NOT_INITIALIZED.on(specifier));
}
}
@Override
public void visitJetElement(@NotNull JetElement element) {
throw new UnsupportedOperationException(element.getText() + " : " + element);
}
};
for (JetDelegationSpecifier delegationSpecifier : jetClass.getDelegationSpecifiers()) {
delegationSpecifier.accept(visitor);
}
if (DescriptorUtils.isAnnotationClass(descriptor)
&& jetClass.getDelegationSpecifierList() != null) {
trace.report(SUPERTYPES_FOR_ANNOTATION_CLASS.on(jetClass.getDelegationSpecifierList()));
}
if (primaryConstructorDelegationCall[0] != null && primaryConstructor != null) {
recordConstructorDelegationCall(
trace, primaryConstructor, primaryConstructorDelegationCall[0]);
}
checkSupertypeList(descriptor, supertypes, jetClass);
}