@NotNull public static SimpleFunctionDescriptor createEnumValueOfMethod( @NotNull ClassDescriptor enumClass) { SimpleFunctionDescriptorImpl valueOf = SimpleFunctionDescriptorImpl.create( enumClass, Annotations.Companion.getEMPTY(), DescriptorUtils.ENUM_VALUE_OF, CallableMemberDescriptor.Kind.SYNTHESIZED, enumClass.getSource()); ValueParameterDescriptor parameterDescriptor = new ValueParameterDescriptorImpl( valueOf, null, 0, Annotations.Companion.getEMPTY(), Name.identifier("value"), getBuiltIns(enumClass).getStringType(), /* declaresDefaultValue = */ false, /* isCrossinline = */ false, /* isNoinline = */ false, null, enumClass.getSource()); return valueOf.initialize( null, null, Collections.<TypeParameterDescriptor>emptyList(), Collections.singletonList(parameterDescriptor), enumClass.getDefaultType(), Modality.FINAL, Visibilities.PUBLIC); }
@NotNull public static PropertyDescriptor createEnumValuesProperty(@NotNull ClassDescriptor enumClass) { PropertyDescriptorImpl values = PropertyDescriptorImpl.create( enumClass, Annotations.Companion.getEMPTY(), Modality.FINAL, Visibilities.PUBLIC, /* isVar */ false, DescriptorUtils.ENUM_VALUES, CallableMemberDescriptor.Kind.SYNTHESIZED, enumClass.getSource(), /* lateInit = */ false, /* isConst = */ false); KotlinType type = getBuiltIns(enumClass).getArrayType(Variance.INVARIANT, enumClass.getDefaultType()); PropertyGetterDescriptorImpl getter = createDefaultGetter(values, Annotations.Companion.getEMPTY()); values.initialize(getter, null); getter.initialize(type); values.setType(type, Collections.<TypeParameterDescriptor>emptyList(), null, (KotlinType) null); return values; }
@NotNull public static List<ValueParameterDescriptor> getValueParameters( @NotNull FunctionDescriptor functionDescriptor, @NotNull KotlinType type) { assert isFunctionOrExtensionFunctionType(type); List<TypeProjection> parameterTypes = getParameterTypeProjectionsFromFunctionType(type); List<ValueParameterDescriptor> valueParameters = new ArrayList<ValueParameterDescriptor>(parameterTypes.size()); for (int i = 0; i < parameterTypes.size(); i++) { TypeProjection parameterType = parameterTypes.get(i); ValueParameterDescriptorImpl valueParameterDescriptor = new ValueParameterDescriptorImpl( functionDescriptor, null, i, Annotations.Companion.getEMPTY(), Name.identifier("p" + (i + 1)), parameterType.getType(), /* declaresDefaultValue = */ false, /* isCrossinline = */ false, /* isNoinline = */ false, null, SourceElement.NO_SOURCE); valueParameters.add(valueParameterDescriptor); } return valueParameters; }
@NotNull public KotlinType getEnumType(@NotNull KotlinType argument) { Variance projectionType = Variance.INVARIANT; List<TypeProjectionImpl> types = Collections.singletonList(new TypeProjectionImpl(projectionType, argument)); return KotlinTypeImpl.create(Annotations.Companion.getEMPTY(), getEnum(), false, types); }
public DefaultConstructorDescriptor( @NotNull ClassDescriptor containingClass, @NotNull SourceElement source) { super( containingClass, null, Annotations.Companion.getEMPTY(), true, Kind.DECLARATION, source); initialize( Collections.<ValueParameterDescriptor>emptyList(), getDefaultConstructorVisibility(containingClass)); }
private TypeParameterDescriptor createTypeVariable(String name) { return TypeParameterDescriptorImpl.createWithDefaultBound( builtIns.getBuiltInsModule(), Annotations.Companion.getEMPTY(), false, Variance.INVARIANT, Name.identifier(name), 0); }
@NotNull public Collection<KotlinType> getSupertypesForClosure(@NotNull FunctionDescriptor descriptor) { ReceiverParameterDescriptor receiverParameter = descriptor.getExtensionReceiverParameter(); //noinspection ConstantConditions KotlinType functionType = DescriptorUtilsKt.getBuiltIns(descriptor) .getFunctionType( Annotations.Companion.getEMPTY(), receiverParameter == null ? null : receiverParameter.getType(), ExpressionTypingUtils.getValueParametersTypes(descriptor.getValueParameters()), descriptor.getReturnType()); return Arrays.asList(lambda.getDefaultType(), functionType); }
@NotNull public static KotlinType makeUnsubstitutedType( ClassDescriptor classDescriptor, MemberScope unsubstitutedMemberScope) { if (ErrorUtils.isError(classDescriptor)) { return ErrorUtils.createErrorType("Unsubstituted type for " + classDescriptor); } TypeConstructor typeConstructor = classDescriptor.getTypeConstructor(); List<TypeProjection> arguments = getDefaultTypeProjections(typeConstructor.getParameters()); return KotlinTypeImpl.create( Annotations.Companion.getEMPTY(), typeConstructor, false, arguments, unsubstitutedMemberScope); }
@NotNull public static SimpleFunctionDescriptor createEnumValuesMethod( @NotNull ClassDescriptor enumClass) { SimpleFunctionDescriptorImpl values = SimpleFunctionDescriptorImpl.create( enumClass, Annotations.Companion.getEMPTY(), DescriptorUtils.ENUM_VALUES, CallableMemberDescriptor.Kind.SYNTHESIZED, enumClass.getSource()); return values.initialize( null, null, Collections.<TypeParameterDescriptor>emptyList(), Collections.<ValueParameterDescriptor>emptyList(), getBuiltIns(enumClass).getArrayType(Variance.INVARIANT, enumClass.getDefaultType()), Modality.FINAL, Visibilities.PUBLIC); }
@NotNull public Collection<KotlinType> getSupertypesForFunctionReference( @NotNull FunctionDescriptor descriptor) { ReceiverParameterDescriptor extensionReceiver = descriptor.getExtensionReceiverParameter(); ReceiverParameterDescriptor dispatchReceiver = descriptor.getDispatchReceiverParameter(); KotlinType receiverType = extensionReceiver != null ? extensionReceiver.getType() : dispatchReceiver != null ? dispatchReceiver.getType() : null; //noinspection ConstantConditions KotlinType functionType = DescriptorUtilsKt.getBuiltIns(descriptor) .getFunctionType( Annotations.Companion.getEMPTY(), receiverType, ExpressionTypingUtils.getValueParametersTypes(descriptor.getValueParameters()), descriptor.getReturnType()); return Arrays.asList(functionReference.getDefaultType(), functionType); }
@NotNull private DeclarationDescriptor createInitializerScopeParent() { ConstructorDescriptor primaryConstructor = getUnsubstitutedPrimaryConstructor(); if (primaryConstructor != null) return primaryConstructor; return new FunctionDescriptorImpl( LazyClassDescriptor.this, null, Annotations.Companion.getEMPTY(), Name.special("<init-blocks>"), CallableMemberDescriptor.Kind.SYNTHESIZED, SourceElement.NO_SOURCE) { { initialize( null, null, Collections.<TypeParameterDescriptor>emptyList(), Collections.<ValueParameterDescriptor>emptyList(), null, Modality.FINAL, Visibilities.PRIVATE); } @NotNull @Override protected FunctionDescriptorImpl createSubstitutedCopy( @NotNull DeclarationDescriptor newOwner, @Nullable FunctionDescriptor original, @NotNull Kind kind, @Nullable Name newName, @NotNull Annotations annotations, @NotNull SourceElement source) { throw new UnsupportedOperationException(); } }; }
@NotNull @Override public Annotations getAnnotations() { return Annotations.Companion.getEMPTY(); // TODO }
public LazyClassDescriptor( @NotNull final LazyClassContext c, @NotNull DeclarationDescriptor containingDeclaration, @NotNull Name name, @NotNull final KtClassLikeInfo classLikeInfo) { super( c.getStorageManager(), containingDeclaration, name, KotlinSourceElementKt.toSourceElement(classLikeInfo.getCorrespondingClassOrObject())); this.c = c; KtClassOrObject classOrObject = classLikeInfo.getCorrespondingClassOrObject(); if (classOrObject != null) { this.c.getTrace().record(BindingContext.CLASS, classOrObject, this); } this.c .getTrace() .record(BindingContext.FQNAME_TO_CLASS_DESCRIPTOR, DescriptorUtils.getFqName(this), this); this.declarationProvider = c.getDeclarationProviderFactory().getClassMemberDeclarationProvider(classLikeInfo); StorageManager storageManager = c.getStorageManager(); this.unsubstitutedMemberScope = createMemberScope(c, this.declarationProvider); this.kind = classLikeInfo.getClassKind(); this.staticScope = kind == ClassKind.ENUM_CLASS ? new StaticScopeForKotlinEnum(storageManager, this) : MemberScope.Empty.INSTANCE; this.typeConstructor = new LazyClassTypeConstructor(); this.isCompanionObject = classLikeInfo instanceof KtObjectInfo && ((KtObjectInfo) classLikeInfo).isCompanionObject(); KtModifierList modifierList = classLikeInfo.getModifierList(); if (kind.isSingleton()) { this.modality = Modality.FINAL; } else { Modality defaultModality = kind == ClassKind.INTERFACE ? Modality.ABSTRACT : Modality.FINAL; this.modality = resolveModalityFromModifiers(modifierList, defaultModality, /* allowSealed = */ true); } boolean isLocal = classOrObject != null && KtPsiUtil.isLocal(classOrObject); Visibility defaultVisibility; if (kind == ClassKind.ENUM_ENTRY || (kind == ClassKind.OBJECT && isCompanionObject)) { defaultVisibility = Visibilities.PUBLIC; } else { defaultVisibility = Visibilities.DEFAULT_VISIBILITY; } this.visibility = isLocal ? Visibilities.LOCAL : resolveVisibilityFromModifiers(modifierList, defaultVisibility); this.isInner = isInnerClass(modifierList) && !ModifiersChecker.isIllegalInner(this); this.isData = modifierList != null && modifierList.hasModifier(KtTokens.DATA_KEYWORD); // Annotation entries are taken from both own annotations (if any) and object literal // annotations (if any) List<KtAnnotationEntry> annotationEntries = new ArrayList<KtAnnotationEntry>(); if (classOrObject != null && classOrObject.getParent() instanceof KtObjectLiteralExpression) { // TODO: it would be better to have separate ObjectLiteralDescriptor without so much magic annotationEntries.addAll( KtPsiUtilKt.getAnnotationEntries((KtObjectLiteralExpression) classOrObject.getParent())); } if (modifierList != null) { annotationEntries.addAll(modifierList.getAnnotationEntries()); } if (!annotationEntries.isEmpty()) { this.annotations = new LazyAnnotations( new LazyAnnotationsContext(c.getAnnotationResolver(), storageManager, c.getTrace()) { @NotNull @Override public LexicalScope getScope() { return getOuterScope(); } }, annotationEntries); } else { this.annotations = Annotations.Companion.getEMPTY(); } List<KtAnnotationEntry> jetDanglingAnnotations = classLikeInfo.getDanglingAnnotations(); if (jetDanglingAnnotations.isEmpty()) { this.danglingAnnotations = Annotations.Companion.getEMPTY(); } else { this.danglingAnnotations = new LazyAnnotations( new LazyAnnotationsContext(c.getAnnotationResolver(), storageManager, c.getTrace()) { @NotNull @Override public LexicalScope getScope() { return getScopeForMemberDeclarationResolution(); } }, jetDanglingAnnotations); } this.companionObjectDescriptor = storageManager.createNullableLazyValue( new Function0<LazyClassDescriptor>() { @Override public LazyClassDescriptor invoke() { return computeCompanionObjectDescriptor(getCompanionObjectIfAllowed()); } }); this.extraCompanionObjectDescriptors = storageManager.createMemoizedFunction( new Function1<KtObjectDeclaration, ClassDescriptor>() { @Override public ClassDescriptor invoke(KtObjectDeclaration companionObject) { return computeCompanionObjectDescriptor(companionObject); } }); this.forceResolveAllContents = storageManager.createRecursionTolerantNullableLazyValue( new Function0<Void>() { @Override public Void invoke() { doForceResolveAllContents(); return null; } }, null); this.resolutionScopesSupport = new ClassResolutionScopesSupport( this, storageManager, new Function0<LexicalScope>() { @Override public LexicalScope invoke() { return getOuterScope(); } }); this.parameters = c.getStorageManager() .createLazyValue( new Function0<List<TypeParameterDescriptor>>() { @Override public List<TypeParameterDescriptor> invoke() { KtClassLikeInfo classInfo = declarationProvider.getOwnerInfo(); KtTypeParameterList typeParameterList = classInfo.getTypeParameterList(); if (typeParameterList == null) return Collections.emptyList(); if (classInfo.getClassKind() == ClassKind.ENUM_CLASS) { c.getTrace().report(TYPE_PARAMETERS_IN_ENUM.on(typeParameterList)); } List<KtTypeParameter> typeParameters = typeParameterList.getParameters(); if (typeParameters.isEmpty()) return Collections.emptyList(); List<TypeParameterDescriptor> parameters = new ArrayList<TypeParameterDescriptor>(typeParameters.size()); for (int i = 0; i < typeParameters.size(); i++) { parameters.add( new LazyTypeParameterDescriptor( c, LazyClassDescriptor.this, typeParameters.get(i), i)); } return parameters; } }); this.scopeForInitializerResolution = storageManager.createLazyValue( new Function0<LexicalScope>() { @Override public LexicalScope invoke() { return ClassResolutionScopesSupportKt.scopeForInitializerResolution( LazyClassDescriptor.this, createInitializerScopeParent(), classLikeInfo.getPrimaryConstructorParameters()); } }); }