// allowedFinalSupertypes typically contains a enum type of which supertypeOwner is an entry private void checkSupertypeList( @NotNull MutableClassDescriptor supertypeOwner, @NotNull Map<JetTypeReference, JetType> supertypes, Set<TypeConstructor> allowedFinalSupertypes) { Set<TypeConstructor> typeConstructors = Sets.newHashSet(); boolean classAppeared = false; for (Map.Entry<JetTypeReference, JetType> entry : supertypes.entrySet()) { JetTypeReference typeReference = entry.getKey(); JetType supertype = entry.getValue(); ClassDescriptor classDescriptor = TypeUtils.getClassDescriptor(supertype); if (classDescriptor != null) { if (classDescriptor.getKind() != ClassKind.TRAIT) { if (classAppeared) { trace.report(MANY_CLASSES_IN_SUPERTYPE_LIST.on(typeReference)); } else { classAppeared = true; } } } else { trace.report(SUPERTYPE_NOT_A_CLASS_OR_TRAIT.on(typeReference)); } TypeConstructor constructor = supertype.getConstructor(); if (!typeConstructors.add(constructor)) { trace.report(SUPERTYPE_APPEARS_TWICE.on(typeReference)); } if (constructor.isSealed() && !allowedFinalSupertypes.contains(constructor)) { trace.report(FINAL_SUPERTYPE.on(typeReference)); } } }
@NotNull private String renderTypeName(@NotNull TypeConstructor typeConstructor) { ClassifierDescriptor cd = typeConstructor.getDeclarationDescriptor(); if (cd instanceof TypeParameterDescriptor) { return renderName(cd.getName()); } else if (cd instanceof ClassDescriptor) { return renderClassName((ClassDescriptor) cd); } else { assert cd == null : "Unexpected classifier: " + cd.getClass(); return typeConstructor.toString(); } }
// Temporary. Duplicates logic from LazyClassTypeConstructor.isReachable private static boolean isReachable( MutableClassDescriptorLite from, MutableClassDescriptorLite to, Set<ClassDescriptor> visited) { if (!visited.add(from)) return false; for (JetType supertype : from.getSupertypes()) { TypeConstructor supertypeConstructor = supertype.getConstructor(); if (supertypeConstructor.getDeclarationDescriptor() == to) { return true; } ClassifierDescriptor superclass = supertypeConstructor.getDeclarationDescriptor(); if (superclass instanceof MutableClassDescriptorLite && isReachable((MutableClassDescriptorLite) superclass, to, visited)) { return true; } } return false; }
private boolean isReachable( TypeConstructor from, TypeConstructor to, Set<TypeConstructor> visited) { if (!visited.add(from)) return false; for (JetType supertype : from.getSupertypes()) { TypeConstructor supertypeConstructor = supertype.getConstructor(); if (supertypeConstructor == to) { return true; } if (isReachable(supertypeConstructor, to, visited)) { return true; } } return false; }
private void addConstraint( @NotNull ConstraintKind constraintKind, @NotNull JetType subjectType, @Nullable JetType constrainingType, @NotNull ConstraintPosition constraintPosition) { if (constrainingType == TypeUtils.NO_EXPECTED_TYPE || constrainingType == DONT_CARE || constrainingType == CANT_INFER) { return; } if (constrainingType == null || (ErrorUtils.isErrorType(constrainingType) && constrainingType != PLACEHOLDER_FUNCTION_TYPE)) { hasErrorInConstrainingTypes = true; return; } assert subjectType != TypeUtils.NO_EXPECTED_TYPE : "Subject type shouldn't be NO_EXPECTED_TYPE (in position " + constraintPosition + " )"; if (ErrorUtils.isErrorType(subjectType)) return; DeclarationDescriptor subjectTypeDescriptor = subjectType.getConstructor().getDeclarationDescriptor(); KotlinBuiltIns kotlinBuiltIns = KotlinBuiltIns.getInstance(); if (constrainingType == PLACEHOLDER_FUNCTION_TYPE) { if (!kotlinBuiltIns.isFunctionOrExtensionFunctionType(subjectType)) { if (subjectTypeDescriptor instanceof TypeParameterDescriptor && typeParameterConstraints.get(subjectTypeDescriptor) != null) { // a constraint binds type parameter and any function type, so there is no new info and no // error return; } errorConstraintPositions.add(constraintPosition); } return; } // todo temporary hack // function literal without declaring receiver type { x -> ... } // can be considered as extension function if one is expected // (special type constructor for function/ extension function should be introduced like // PLACEHOLDER_FUNCTION_TYPE) if (constraintKind == SUB_TYPE && kotlinBuiltIns.isFunctionType(constrainingType) && kotlinBuiltIns.isExtensionFunctionType(subjectType)) { constrainingType = createCorrespondingExtensionFunctionType(constrainingType, DONT_CARE); } DeclarationDescriptor constrainingTypeDescriptor = constrainingType.getConstructor().getDeclarationDescriptor(); if (subjectTypeDescriptor instanceof TypeParameterDescriptor) { TypeParameterDescriptor typeParameter = (TypeParameterDescriptor) subjectTypeDescriptor; TypeConstraintsImpl typeConstraints = typeParameterConstraints.get(typeParameter); if (typeConstraints != null) { if (TypeUtils.dependsOnTypeParameterConstructors( constrainingType, Collections.singleton(DONT_CARE.getConstructor()))) { return; } if (subjectType.isNullable() && constrainingType.isNullable()) { constrainingType = TypeUtils.makeNotNullable(constrainingType); } typeConstraints.addBound(constraintKind, constrainingType); return; } } if (constrainingTypeDescriptor instanceof TypeParameterDescriptor) { assert typeParameterConstraints.get(constrainingTypeDescriptor) == null : "Constraining type contains type variable " + constrainingTypeDescriptor.getName(); } if (constraintKind == SUB_TYPE && kotlinBuiltIns.isNothingOrNullableNothing(constrainingType)) { // following constraints are always true: // 'Nothing' is a subtype of any type if (!constrainingType.isNullable()) return; // 'Nothing?' is a subtype of nullable type if (subjectType.isNullable()) return; } if (!(constrainingTypeDescriptor instanceof ClassDescriptor) || !(subjectTypeDescriptor instanceof ClassDescriptor)) { errorConstraintPositions.add(constraintPosition); return; } switch (constraintKind) { case SUB_TYPE: { if (kotlinBuiltIns.isNothingOrNullableNothing(constrainingType)) break; JetType correspondingSupertype = TypeCheckingProcedure.findCorrespondingSupertype(constrainingType, subjectType); if (correspondingSupertype != null) { constrainingType = correspondingSupertype; } break; } case SUPER_TYPE: { if (kotlinBuiltIns.isNothingOrNullableNothing(subjectType)) break; JetType correspondingSupertype = TypeCheckingProcedure.findCorrespondingSupertype(subjectType, constrainingType); if (correspondingSupertype != null) { subjectType = correspondingSupertype; } } case EQUAL: // nothing } if (constrainingType.getConstructor() != subjectType.getConstructor()) { errorConstraintPositions.add(constraintPosition); return; } TypeConstructor typeConstructor = subjectType.getConstructor(); List<TypeProjection> subjectArguments = subjectType.getArguments(); List<TypeProjection> constrainingArguments = constrainingType.getArguments(); List<TypeParameterDescriptor> parameters = typeConstructor.getParameters(); for (int i = 0; i < subjectArguments.size(); i++) { Variance typeParameterVariance = parameters.get(i).getVariance(); TypeProjection subjectArgument = subjectArguments.get(i); TypeProjection constrainingArgument = constrainingArguments.get(i); ConstraintKind typeParameterConstraintKind = getTypeParameterConstraintKind( typeParameterVariance, subjectArgument, constrainingArgument, constraintKind); addConstraint( typeParameterConstraintKind, subjectArgument.getType(), constrainingArgument.getType(), constraintPosition); } }