@NotNull
private MutableClassDescriptor createClassDescriptorForClass(
@NotNull JetClass klass, @NotNull DeclarationDescriptor containingDeclaration) {
ClassKind kind = getClassKind(klass);
// Kind check is needed in order to not consider enums as inner in any case
// (otherwise it would be impossible to create a class object in the enum)
boolean isInner = kind == ClassKind.CLASS && klass.isInner();
MutableClassDescriptor mutableClassDescriptor =
new MutableClassDescriptor(
containingDeclaration,
outerScope,
kind,
isInner,
JetPsiUtil.safeName(klass.getName()));
c.getClasses().put(klass, mutableClassDescriptor);
trace.record(
FQNAME_TO_CLASS_DESCRIPTOR, JetPsiUtil.getUnsafeFQName(klass), mutableClassDescriptor);
createClassObjectForEnumClass(mutableClassDescriptor);
JetScope classScope = mutableClassDescriptor.getScopeForMemberDeclarationResolution();
prepareForDeferredCall(classScope, mutableClassDescriptor, klass);
return mutableClassDescriptor;
}
private void processPrimaryConstructor(MutableClassDescriptor classDescriptor, JetClass klass) {
if (classDescriptor.getKind() == ClassKind.TRAIT) {
JetParameterList primaryConstructorParameterList = klass.getPrimaryConstructorParameterList();
if (primaryConstructorParameterList != null) {
context.getTrace().report(CONSTRUCTOR_IN_TRAIT.on(primaryConstructorParameterList));
}
if (!klass.hasPrimaryConstructor()) return;
}
// TODO : not all the parameters are real properties
JetScope memberScope = classDescriptor.getScopeForSupertypeResolution();
ConstructorDescriptor constructorDescriptor =
context
.getDescriptorResolver()
.resolvePrimaryConstructorDescriptor(memberScope, classDescriptor, klass);
for (JetParameter parameter : klass.getPrimaryConstructorParameters()) {
if (parameter.getValOrVarNode() != null) {
PropertyDescriptor propertyDescriptor =
context
.getDescriptorResolver()
.resolvePrimaryConstructorParameterToAProperty(
classDescriptor, memberScope, parameter);
classDescriptor.addPropertyDescriptor(propertyDescriptor);
context.getPrimaryConstructorParameterProperties().add(propertyDescriptor);
}
}
if (constructorDescriptor != null) {
classDescriptor.setPrimaryConstructor(constructorDescriptor, context.getTrace());
}
}
@Override
public void visitEnumEntry(@NotNull JetEnumEntry declaration) {
MutableClassDescriptor descriptor =
createClassDescriptorForSingleton(
declaration, JetPsiUtil.safeName(declaration.getName()), ClassKind.ENUM_ENTRY);
owner.addClassifierDescriptor(descriptor);
descriptor.getBuilder().setClassObjectDescriptor(createSyntheticClassObject(descriptor));
}
private void resolvePropertyDeclarationBodies() {
// Member properties
Set<JetProperty> processed = Sets.newHashSet();
for (Map.Entry<JetClass, MutableClassDescriptor> entry : context.getClasses().entrySet()) {
JetClass jetClass = entry.getKey();
if (!context.completeAnalysisNeeded(jetClass)) continue;
MutableClassDescriptor classDescriptor = entry.getValue();
for (JetProperty property : jetClass.getProperties()) {
final PropertyDescriptor propertyDescriptor = this.context.getProperties().get(property);
assert propertyDescriptor != null;
computeDeferredType(propertyDescriptor.getReturnType());
JetExpression initializer = property.getInitializer();
if (initializer != null) {
ConstructorDescriptor primaryConstructor =
classDescriptor.getUnsubstitutedPrimaryConstructor();
if (primaryConstructor != null) {
JetScope declaringScopeForPropertyInitializer =
this.context.getDeclaringScopes().get(property);
resolvePropertyInitializer(
property, propertyDescriptor, initializer, declaringScopeForPropertyInitializer);
}
}
resolvePropertyAccessors(property, propertyDescriptor);
processed.add(property);
}
}
// Top-level properties & properties of objects
for (Map.Entry<JetProperty, PropertyDescriptor> entry :
this.context.getProperties().entrySet()) {
JetProperty property = entry.getKey();
if (!context.completeAnalysisNeeded(property)) continue;
if (processed.contains(property)) continue;
final PropertyDescriptor propertyDescriptor = entry.getValue();
computeDeferredType(propertyDescriptor.getReturnType());
JetScope declaringScope = this.context.getDeclaringScopes().get(property);
JetExpression initializer = property.getInitializer();
if (initializer != null) {
resolvePropertyInitializer(property, propertyDescriptor, initializer, declaringScope);
}
resolvePropertyAccessors(property, propertyDescriptor);
}
}
private void resolveAnnotationsForClassOrObject(
AnnotationResolver annotationResolver,
JetClassOrObject jetClass,
MutableClassDescriptor descriptor) {
JetModifierList modifierList = jetClass.getModifierList();
if (modifierList != null) {
descriptor
.getAnnotations()
.addAll(
annotationResolver.resolveAnnotations(
descriptor.getScopeForSupertypeResolution(),
modifierList.getAnnotationEntries()));
}
}
private void resolvePrimaryConstructorParameters() {
for (Map.Entry<JetClass, MutableClassDescriptor> entry : context.getClasses().entrySet()) {
JetClass klass = entry.getKey();
MutableClassDescriptor classDescriptor = entry.getValue();
ConstructorDescriptor unsubstitutedPrimaryConstructor =
classDescriptor.getUnsubstitutedPrimaryConstructor();
if (unsubstitutedPrimaryConstructor != null) {
checkDefaultParameterValues(
klass.getPrimaryConstructorParameters(),
unsubstitutedPrimaryConstructor.getValueParameters(),
classDescriptor.getScopeForInitializers());
}
}
}
private void createClassObjectForEnumClass(
@NotNull MutableClassDescriptor mutableClassDescriptor) {
if (mutableClassDescriptor.getKind() == ClassKind.ENUM_CLASS) {
MutableClassDescriptor classObject = createSyntheticClassObject(mutableClassDescriptor);
mutableClassDescriptor.getBuilder().setClassObjectDescriptor(classObject);
classObject
.getBuilder()
.addFunctionDescriptor(
DescriptorResolver.createEnumClassObjectValuesMethod(classObject, trace));
classObject
.getBuilder()
.addFunctionDescriptor(
DescriptorResolver.createEnumClassObjectValueOfMethod(classObject, trace));
}
}
@NotNull
private MutableClassDescriptor createClassDescriptorForSingleton(
@NotNull JetClassOrObject declaration, @NotNull Name name, @NotNull ClassKind kind) {
MutableClassDescriptor descriptor =
new MutableClassDescriptor(owner.getOwnerForChildren(), outerScope, kind, false, name);
prepareForDeferredCall(
descriptor.getScopeForMemberDeclarationResolution(), descriptor, declaration);
createPrimaryConstructorForObject(declaration, descriptor);
trace.record(BindingContext.CLASS, declaration, descriptor);
c.getClasses().put(declaration, descriptor);
return descriptor;
}
private void processSecondaryConstructor(
MutableClassDescriptor classDescriptor, JetSecondaryConstructor constructor) {
if (classDescriptor.getKind() == ClassKind.TRAIT) {
// context.getTrace().getErrorHandler().genericError(constructor.getNameNode(), "A
// trait may not have a constructor");
context.getTrace().report(CONSTRUCTOR_IN_TRAIT.on(constructor.getNameNode()));
}
ConstructorDescriptor constructorDescriptor =
context
.getDescriptorResolver()
.resolveSecondaryConstructorDescriptor(
classDescriptor.getScopeForMemberResolution(), classDescriptor, constructor);
classDescriptor.addConstructor(constructorDescriptor, context.getTrace());
context.getConstructors().put(constructor, constructorDescriptor);
context.getDeclaringScopes().put(constructor, classDescriptor.getScopeForMemberLookup());
}
@Override
public void visitObjectDeclaration(@NotNull JetObjectDeclaration declaration) {
if (declaration.isObjectLiteral()) {
createClassDescriptorForSingleton(
declaration, SpecialNames.NO_NAME_PROVIDED, ClassKind.CLASS);
return;
}
MutableClassDescriptor descriptor =
createClassDescriptorForSingleton(
declaration, JetPsiUtil.safeName(declaration.getName()), ClassKind.OBJECT);
owner.addClassifierDescriptor(descriptor);
trace.record(FQNAME_TO_CLASS_DESCRIPTOR, JetPsiUtil.getUnsafeFQName(declaration), descriptor);
descriptor.getBuilder().setClassObjectDescriptor(createSyntheticClassObject(descriptor));
}
@NotNull
private MutableClassDescriptor createSyntheticClassObject(
@NotNull ClassDescriptor classDescriptor) {
MutableClassDescriptor classObject =
new MutableClassDescriptor(
classDescriptor,
outerScope,
ClassKind.CLASS_OBJECT,
false,
getClassObjectName(classDescriptor.getName()));
classObject.setModality(Modality.FINAL);
classObject.setVisibility(DescriptorUtils.getSyntheticClassObjectVisibility());
classObject.setTypeParameterDescriptors(Collections.<TypeParameterDescriptor>emptyList());
createPrimaryConstructorForObject(null, classObject);
return classObject;
}
public void lockScopes() {
getScopeForMemberLookupAsWritableScope().changeLockLevel(WritableScope.LockLevel.READING);
if (classObjectDescriptor != null) {
classObjectDescriptor.lockScopes();
}
scopeForSupertypeResolution.changeLockLevel(WritableScope.LockLevel.READING);
scopeForMemberResolution.changeLockLevel(WritableScope.LockLevel.READING);
getWritableScopeForInitializers().changeLockLevel(WritableScope.LockLevel.READING);
}
@NotNull
private ConstructorDescriptorImpl createPrimaryConstructorForObject(
@Nullable PsiElement object, @NotNull MutableClassDescriptor mutableClassDescriptor) {
ConstructorDescriptorImpl constructorDescriptor =
DescriptorResolver.createAndRecordPrimaryConstructorForObject(
object, mutableClassDescriptor, trace);
mutableClassDescriptor.setPrimaryConstructor(constructorDescriptor);
return constructorDescriptor;
}
private void resolveAnonymousInitializers(
JetClassOrObject jetClassOrObject, MutableClassDescriptor classDescriptor) {
if (!context.completeAnalysisNeeded(jetClassOrObject)) return;
List<JetClassInitializer> anonymousInitializers = jetClassOrObject.getAnonymousInitializers();
if (classDescriptor.getUnsubstitutedPrimaryConstructor() != null) {
ConstructorDescriptor primaryConstructor =
classDescriptor.getUnsubstitutedPrimaryConstructor();
assert primaryConstructor != null;
final JetScope scopeForInitializers = classDescriptor.getScopeForInitializers();
for (JetClassInitializer anonymousInitializer : anonymousInitializers) {
expressionTypingServices.getType(
scopeForInitializers, anonymousInitializer.getBody(), NO_EXPECTED_TYPE, trace);
}
} else {
for (JetClassInitializer anonymousInitializer : anonymousInitializers) {
trace.report(ANONYMOUS_INITIALIZER_WITHOUT_CONSTRUCTOR.on(anonymousInitializer));
}
}
}
private void createTypeConstructors(@NotNull TopDownAnalysisContext c) {
for (Map.Entry<JetClassOrObject, ClassDescriptorWithResolutionScopes> entry :
c.getClasses().entrySet()) {
JetClassOrObject classOrObject = entry.getKey();
MutableClassDescriptor descriptor = (MutableClassDescriptor) entry.getValue();
if (classOrObject instanceof JetClass) {
descriptorResolver.resolveMutableClassDescriptor(
(JetClass) classOrObject, descriptor, trace);
} else if (classOrObject instanceof JetObjectDeclaration) {
descriptor.setModality(Modality.FINAL);
descriptor.setVisibility(
resolveVisibilityFromModifiers(classOrObject, getDefaultClassVisibility(descriptor)));
descriptor.setTypeParameterDescriptors(Collections.<TypeParameterDescriptor>emptyList());
}
descriptor.createTypeConstructor();
ClassKind kind = descriptor.getKind();
if (kind == ClassKind.ENUM_ENTRY
|| kind == ClassKind.OBJECT
|| kind == ClassKind.ENUM_CLASS) {
MutableClassDescriptorLite classObject = descriptor.getClassObjectDescriptor();
assert classObject != null
: "Enum entries and named objects should have class objects: "
+ classOrObject.getText();
JetType supertype;
if (kind == ClassKind.ENUM_CLASS) {
supertype = KotlinBuiltIns.getInstance().getAnyType();
} else {
// This is a clever hack: each enum entry and object declaration (i.e. singleton) has a
// synthetic class object.
// We make this class object inherit from the singleton here, thus allowing to use the
// singleton's class object where
// the instance of the singleton is applicable. Effectively all members of the singleton
// would be present in its class
// object as fake overrides, so you can access them via standard class object notation:
// ObjectName.memberName()
supertype = descriptor.getDefaultType();
}
classObject.setSupertypes(Collections.singleton(supertype));
classObject.createTypeConstructor();
}
}
}
private void resolveFunctionAndPropertyHeaders() {
for (Map.Entry<JetFile, WritableScope> entry : context.getNamespaceScopes().entrySet()) {
JetFile namespace = entry.getKey();
WritableScope namespaceScope = entry.getValue();
NamespaceLike namespaceDescriptor = context.getNamespaceDescriptors().get(namespace);
resolveFunctionAndPropertyHeaders(
namespace.getDeclarations(),
namespaceScope,
namespaceScope,
namespaceScope,
namespaceDescriptor);
}
for (Map.Entry<JetClass, MutableClassDescriptor> entry : context.getClasses().entrySet()) {
JetClass jetClass = entry.getKey();
MutableClassDescriptor classDescriptor = entry.getValue();
resolveFunctionAndPropertyHeaders(
jetClass.getDeclarations(),
classDescriptor.getScopeForMemberResolution(),
classDescriptor.getScopeForInitializers(),
classDescriptor.getScopeForMemberResolution(),
classDescriptor);
// processPrimaryConstructor(classDescriptor, jetClass);
// for (JetSecondaryConstructor jetConstructor :
// jetClass.getSecondaryConstructors()) {
// processSecondaryConstructor(classDescriptor, jetConstructor);
// }
}
for (Map.Entry<JetObjectDeclaration, MutableClassDescriptor> entry :
context.getObjects().entrySet()) {
JetObjectDeclaration object = entry.getKey();
MutableClassDescriptor classDescriptor = entry.getValue();
resolveFunctionAndPropertyHeaders(
object.getDeclarations(),
classDescriptor.getScopeForMemberResolution(),
classDescriptor.getScopeForInitializers(),
classDescriptor.getScopeForMemberResolution(),
classDescriptor);
}
// TODO : Extensions
}
private void resolveDelegationSpecifierList(
final JetClassOrObject jetClass, final MutableClassDescriptor descriptor) {
if (!context.completeAnalysisNeeded(jetClass)) return;
final ConstructorDescriptor primaryConstructor =
descriptor.getUnsubstitutedPrimaryConstructor();
final JetScope scopeForConstructor =
primaryConstructor == null
? null
: FunctionDescriptorUtil.getFunctionInnerScope(
descriptor.getScopeForSupertypeResolution(), primaryConstructor, trace);
final ExpressionTypingServices typeInferrer = expressionTypingServices; // TODO : flow
final Map<JetTypeReference, JetType> supertypes = Maps.newLinkedHashMap();
JetVisitorVoid visitor =
new JetVisitorVoid() {
private void recordSupertype(JetTypeReference typeReference, JetType supertype) {
if (supertype == null) return;
supertypes.put(typeReference, supertype);
}
@Override
public void visitDelegationByExpressionSpecifier(
JetDelegatorByExpressionSpecifier specifier) {
if (descriptor.getKind() == ClassKind.TRAIT) {
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.TRAIT) {
trace.report(DELEGATION_NOT_TO_TRAIT.on(specifier.getTypeReference()));
}
}
}
JetExpression delegateExpression = specifier.getDelegateExpression();
if (delegateExpression != null) {
JetScope scope =
scopeForConstructor == null
? descriptor.getScopeForMemberResolution()
: scopeForConstructor;
JetType type =
typeInferrer.getType(scope, delegateExpression, NO_EXPECTED_TYPE, trace);
if (type != null
&& supertype != null
&& !JetTypeChecker.INSTANCE.isSubtypeOf(type, supertype)) {
trace.report(TYPE_MISMATCH.on(delegateExpression, supertype, type));
}
}
}
@Override
public void visitDelegationToSuperCallSpecifier(JetDelegatorToSuperCall call) {
JetValueArgumentList valueArgumentList = call.getValueArgumentList();
PsiElement elementToMark = valueArgumentList == null ? call : valueArgumentList;
if (descriptor.getKind() == ClassKind.TRAIT) {
trace.report(SUPERTYPE_INITIALIZED_IN_TRAIT.on(elementToMark));
}
JetTypeReference typeReference = call.getTypeReference();
if (typeReference == null) return;
if (descriptor.getUnsubstitutedPrimaryConstructor() == null) {
assert descriptor.getKind() == ClassKind.TRAIT;
return;
}
OverloadResolutionResults<FunctionDescriptor> results =
callResolver.resolveFunctionCall(
trace,
scopeForConstructor,
CallMaker.makeCall(ReceiverDescriptor.NO_RECEIVER, null, call),
NO_EXPECTED_TYPE,
DataFlowInfo.EMPTY);
if (results.isSuccess()) {
JetType supertype = results.getResultingDescriptor().getReturnType();
recordSupertype(typeReference, supertype);
ClassDescriptor classDescriptor = TypeUtils.getClassDescriptor(supertype);
if (classDescriptor != null) {
if (classDescriptor.getKind() == ClassKind.TRAIT) {
trace.report(CONSTRUCTOR_IN_TRAIT.on(elementToMark));
}
}
} else {
recordSupertype(
typeReference, trace.getBindingContext().get(BindingContext.TYPE, typeReference));
}
}
@Override
public void visitDelegationToSuperClassSpecifier(JetDelegatorToSuperClass specifier) {
JetTypeReference typeReference = specifier.getTypeReference();
JetType supertype = trace.getBindingContext().get(BindingContext.TYPE, typeReference);
recordSupertype(typeReference, supertype);
if (supertype == null) return;
ClassDescriptor classDescriptor = TypeUtils.getClassDescriptor(supertype);
if (classDescriptor == null) return;
if (descriptor.getKind() != ClassKind.TRAIT
&& classDescriptor.hasConstructors()
&& !ErrorUtils.isError(classDescriptor.getTypeConstructor())
&& classDescriptor.getKind() != ClassKind.TRAIT) {
boolean hasConstructorWithoutParams = false;
for (ConstructorDescriptor constructor : classDescriptor.getConstructors()) {
if (constructor.getValueParameters().isEmpty()) {
hasConstructorWithoutParams = true;
}
}
if (!hasConstructorWithoutParams) {
trace.report(SUPERTYPE_NOT_INITIALIZED.on(specifier));
} else {
trace.report(SUPERTYPE_NOT_INITIALIZED_DEFAULT.on(specifier));
}
}
}
@Override
public void visitDelegationToThisCall(JetDelegatorToThisCall thisCall) {
throw new IllegalStateException("This-calls should be prohibited by the parser");
}
@Override
public void visitJetElement(JetElement element) {
throw new UnsupportedOperationException(element.getText() + " : " + element);
}
};
for (JetDelegationSpecifier delegationSpecifier : jetClass.getDelegationSpecifiers()) {
delegationSpecifier.accept(visitor);
}
Set<TypeConstructor> parentEnum = Collections.emptySet();
if (jetClass instanceof JetEnumEntry) {
parentEnum =
Collections.singleton(
((ClassDescriptor) descriptor.getContainingDeclaration().getContainingDeclaration())
.getTypeConstructor());
}
checkSupertypeList(descriptor, supertypes, parentEnum);
}
private void resolveSecondaryConstructorBody(
JetSecondaryConstructor declaration, final ConstructorDescriptor descriptor) {
if (!context.completeAnalysisNeeded(declaration)) return;
MutableClassDescriptor classDescriptor =
(MutableClassDescriptor) descriptor.getContainingDeclaration();
final JetScope scopeForSupertypeInitializers =
FunctionDescriptorUtil.getFunctionInnerScope(
classDescriptor.getScopeForSupertypeResolution(), descriptor, trace);
// contains only constructor parameters
final JetScope scopeForConstructorBody =
FunctionDescriptorUtil.getFunctionInnerScope(
classDescriptor.getScopeForInitializers(), descriptor, trace);
// contains members & backing fields
final DataFlowInfo dataFlowInfo = DataFlowInfo.EMPTY; // TODO: dataFlowInfo
PsiElement nameElement = declaration.getNameNode().getPsi();
if (classDescriptor.getUnsubstitutedPrimaryConstructor() == null) {
trace.report(SECONDARY_CONSTRUCTOR_BUT_NO_PRIMARY.on(nameElement));
} else {
List<JetDelegationSpecifier> initializers = declaration.getInitializers();
if (initializers.isEmpty()) {
trace.report(SECONDARY_CONSTRUCTOR_NO_INITIALIZER_LIST.on(nameElement));
} else {
initializers
.get(0)
.accept(
new JetVisitorVoid() {
@Override
public void visitDelegationToSuperCallSpecifier(JetDelegatorToSuperCall call) {
JetTypeReference typeReference = call.getTypeReference();
if (typeReference != null) {
callResolver.resolveFunctionCall(
trace,
scopeForSupertypeInitializers,
CallMaker.makeCall(ReceiverDescriptor.NO_RECEIVER, null, call),
NO_EXPECTED_TYPE,
dataFlowInfo);
}
}
@Override
public void visitDelegationToThisCall(JetDelegatorToThisCall call) {
// TODO : check that there's no recursion in this() calls
// TODO : check: if a this() call is present, no other initializers are allowed
ClassDescriptor classDescriptor = descriptor.getContainingDeclaration();
callResolver.resolveFunctionCall(
trace,
scopeForSupertypeInitializers,
CallMaker.makeCall(ReceiverDescriptor.NO_RECEIVER, null, call),
NO_EXPECTED_TYPE,
dataFlowInfo);
// call.getThisReference(),
// classDescriptor,
// classDescriptor.getDefaultType(),
// call);
// trace.getErrorHandler().genericError(call.getNode(),
// "this-calls are not supported");
}
@Override
public void visitDelegationByExpressionSpecifier(
JetDelegatorByExpressionSpecifier specifier) {
trace.report(BY_IN_SECONDARY_CONSTRUCTOR.on(specifier));
}
@Override
public void visitDelegationToSuperClassSpecifier(
JetDelegatorToSuperClass specifier) {
trace.report(INITIALIZER_WITH_NO_ARGUMENTS.on(specifier));
}
@Override
public void visitDelegationSpecifier(JetDelegationSpecifier specifier) {
throw new IllegalStateException();
}
});
for (int i = 1, initializersSize = initializers.size(); i < initializersSize; i++) {
JetDelegationSpecifier initializer = initializers.get(i);
trace.report(MANY_CALLS_TO_THIS.on(initializer));
}
}
}
JetExpression bodyExpression = declaration.getBodyExpression();
if (bodyExpression != null) {
expressionTypingServices.checkFunctionReturnType(
scopeForConstructorBody,
declaration,
descriptor,
JetStandardClasses.getUnitType(),
trace);
}
checkDefaultParameterValues(
declaration.getValueParameters(), descriptor.getValueParameters(), scopeForConstructorBody);
}
