Beispiel #1
0
public abstract class KotlinBuiltIns {
  public static final Name BUILT_INS_PACKAGE_NAME = Name.identifier("kotlin");
  public static final FqName BUILT_INS_PACKAGE_FQ_NAME = FqName.topLevel(BUILT_INS_PACKAGE_NAME);
  public static final FqName ANNOTATION_PACKAGE_FQ_NAME =
      BUILT_INS_PACKAGE_FQ_NAME.child(Name.identifier("annotation"));

  public static final Set<FqName> BUILT_INS_PACKAGE_FQ_NAMES =
      setOf(
          BUILT_INS_PACKAGE_FQ_NAME,
          ANNOTATION_PACKAGE_FQ_NAME,
          ReflectionTypesKt.getKOTLIN_REFLECT_FQ_NAME());

  protected final ModuleDescriptorImpl builtInsModule;
  private final BuiltinsPackageFragment builtinsPackageFragment;
  private final BuiltinsPackageFragment annotationPackageFragment;

  private final Map<PrimitiveType, KotlinType> primitiveTypeToArrayKotlinType;
  private final Map<KotlinType, KotlinType> primitiveKotlinTypeToKotlinArrayType;
  private final Map<KotlinType, KotlinType> kotlinArrayTypeToPrimitiveKotlinType;

  public static final FqNames FQ_NAMES = new FqNames();

  protected KotlinBuiltIns() {
    LockBasedStorageManager storageManager = new LockBasedStorageManager();
    builtInsModule =
        new ModuleDescriptorImpl(
            Name.special("<built-ins module>"),
            storageManager,
            ModuleParameters.Empty.INSTANCE,
            this);

    PackageFragmentProvider packageFragmentProvider =
        BuiltInsPackageFragmentProviderKt.createBuiltInPackageFragmentProvider(
            storageManager,
            builtInsModule,
            BUILT_INS_PACKAGE_FQ_NAMES,
            new BuiltInFictitiousFunctionClassFactory(storageManager, builtInsModule),
            getAdditionalSupertypesProvider(),
            new Function1<String, InputStream>() {
              @Override
              public InputStream invoke(String path) {
                return KotlinBuiltIns.class.getClassLoader().getResourceAsStream(path);
              }
            });

    builtInsModule.initialize(packageFragmentProvider);
    builtInsModule.setDependencies(builtInsModule);

    builtinsPackageFragment =
        (BuiltinsPackageFragment)
            single(packageFragmentProvider.getPackageFragments(BUILT_INS_PACKAGE_FQ_NAME));
    annotationPackageFragment =
        (BuiltinsPackageFragment)
            single(packageFragmentProvider.getPackageFragments(ANNOTATION_PACKAGE_FQ_NAME));

    primitiveTypeToArrayKotlinType = new EnumMap<PrimitiveType, KotlinType>(PrimitiveType.class);
    primitiveKotlinTypeToKotlinArrayType = new HashMap<KotlinType, KotlinType>();
    kotlinArrayTypeToPrimitiveKotlinType = new HashMap<KotlinType, KotlinType>();
    for (PrimitiveType primitive : PrimitiveType.values()) {
      makePrimitive(primitive);
    }
  }

  @NotNull
  protected AdditionalSupertypes getAdditionalSupertypesProvider() {
    return AdditionalSupertypes.None.INSTANCE;
  }

  private void makePrimitive(@NotNull PrimitiveType primitiveType) {
    KotlinType type = getBuiltInTypeByClassName(primitiveType.getTypeName().asString());
    KotlinType arrayType = getBuiltInTypeByClassName(primitiveType.getArrayTypeName().asString());

    primitiveTypeToArrayKotlinType.put(primitiveType, arrayType);
    primitiveKotlinTypeToKotlinArrayType.put(type, arrayType);
    kotlinArrayTypeToPrimitiveKotlinType.put(arrayType, type);
  }

  public static class FqNames {
    public final FqNameUnsafe any = fqNameUnsafe("Any");
    public final FqNameUnsafe nothing = fqNameUnsafe("Nothing");
    public final FqNameUnsafe cloneable = fqNameUnsafe("Cloneable");
    public final FqNameUnsafe suppress = fqNameUnsafe("Suppress");
    public final FqNameUnsafe unit = fqNameUnsafe("Unit");
    public final FqNameUnsafe string = fqNameUnsafe("String");
    public final FqNameUnsafe array = fqNameUnsafe("Array");

    public final FqNameUnsafe _boolean = fqNameUnsafe("Boolean");
    public final FqNameUnsafe _char = fqNameUnsafe("Char");
    public final FqNameUnsafe _byte = fqNameUnsafe("Byte");
    public final FqNameUnsafe _short = fqNameUnsafe("Short");
    public final FqNameUnsafe _int = fqNameUnsafe("Int");
    public final FqNameUnsafe _long = fqNameUnsafe("Long");
    public final FqNameUnsafe _float = fqNameUnsafe("Float");
    public final FqNameUnsafe _double = fqNameUnsafe("Double");

    public final FqNameUnsafe _collection = fqNameUnsafe("Collection");
    public final FqNameUnsafe _list = fqNameUnsafe("List");
    public final FqNameUnsafe _set = fqNameUnsafe("Set");
    public final FqNameUnsafe _iterable = fqNameUnsafe("Iterable");

    public final FqName throwable = fqName("Throwable");

    public final FqName deprecated = fqName("Deprecated");
    public final FqName deprecationLevel = fqName("DeprecationLevel");
    public final FqName extensionFunctionType = fqName("ExtensionFunctionType");
    public final FqName target = annotationName("Target");
    public final FqName annotationTarget = annotationName("AnnotationTarget");
    public final FqName annotationRetention = annotationName("AnnotationRetention");
    public final FqName retention = annotationName("Retention");
    public final FqName repeatable = annotationName("Repeatable");
    public final FqName mustBeDocumented = annotationName("MustBeDocumented");
    public final FqName unsafeVariance = fqName("UnsafeVariance");

    public final FqName mutableList = fqName("MutableList");
    public final FqName mutableSet = fqName("MutableSet");
    public final FqName mutableMap = fqName("MutableMap");

    public final FqNameUnsafe kClass = reflect("KClass");
    public final FqNameUnsafe kCallable = reflect("KCallable");
    public final ClassId kProperty = ClassId.topLevel(reflect("KProperty").toSafe());

    // TODO: remove in 1.0
    public final FqName deprecatedExtensionAnnotation = fqName("Extension");

    public final Map<FqNameUnsafe, PrimitiveType> fqNameToPrimitiveType;
    public final Map<FqNameUnsafe, PrimitiveType> arrayClassFqNameToPrimitiveType;

    {
      fqNameToPrimitiveType = new HashMap<FqNameUnsafe, PrimitiveType>(0);
      arrayClassFqNameToPrimitiveType = new HashMap<FqNameUnsafe, PrimitiveType>(0);
      for (PrimitiveType primitiveType : PrimitiveType.values()) {
        fqNameToPrimitiveType.put(
            fqNameUnsafe(primitiveType.getTypeName().asString()), primitiveType);
        arrayClassFqNameToPrimitiveType.put(
            fqNameUnsafe(primitiveType.getArrayTypeName().asString()), primitiveType);
      }
    }

    @NotNull
    private static FqNameUnsafe fqNameUnsafe(@NotNull String simpleName) {
      return fqName(simpleName).toUnsafe();
    }

    @NotNull
    private static FqName fqName(@NotNull String simpleName) {
      return BUILT_INS_PACKAGE_FQ_NAME.child(Name.identifier(simpleName));
    }

    @NotNull
    private static FqNameUnsafe reflect(@NotNull String simpleName) {
      return ReflectionTypesKt.getKOTLIN_REFLECT_FQ_NAME()
          .child(Name.identifier(simpleName))
          .toUnsafe();
    }

    @NotNull
    private static FqName annotationName(@NotNull String simpleName) {
      return ANNOTATION_PACKAGE_FQ_NAME.child(Name.identifier(simpleName));
    }
  }

  ////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////

  @NotNull
  public ModuleDescriptorImpl getBuiltInsModule() {
    return builtInsModule;
  }

  @NotNull
  public PackageFragmentDescriptor getBuiltInsPackageFragment() {
    return builtinsPackageFragment;
  }

  @NotNull
  public MemberScope getBuiltInsPackageScope() {
    return builtinsPackageFragment.getMemberScope();
  }

  @NotNull
  public MemberScope getAnnotationPackageScope() {
    return annotationPackageFragment.getMemberScope();
  }

  ////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////

  // GET CLASS

  ////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////

  @NotNull
  public ClassDescriptor getAnnotationClassByName(@NotNull Name simpleName) {
    ClassifierDescriptor classifier =
        annotationPackageFragment
            .getMemberScope()
            .getContributedClassifier(simpleName, NoLookupLocation.FROM_BUILTINS);
    assert classifier instanceof ClassDescriptor
        : "Must be a class descriptor "
            + simpleName
            + ", but was "
            + (classifier == null ? "null" : classifier.toString());
    return (ClassDescriptor) classifier;
  }

  @NotNull
  public ClassDescriptor getBuiltInClassByName(@NotNull Name simpleName) {
    ClassDescriptor classDescriptor = getBuiltInClassByNameNullable(simpleName);
    assert classDescriptor != null : "Built-in class " + simpleName + " is not found";
    return classDescriptor;
  }

  @Nullable
  public ClassDescriptor getBuiltInClassByNameNullable(@NotNull Name simpleName) {
    ClassifierDescriptor classifier =
        getBuiltInsPackageFragment()
            .getMemberScope()
            .getContributedClassifier(simpleName, NoLookupLocation.FROM_BUILTINS);
    assert classifier == null || classifier instanceof ClassDescriptor
        : "Must be a class descriptor " + simpleName + ", but was " + classifier;
    return (ClassDescriptor) classifier;
  }

  @NotNull
  private ClassDescriptor getBuiltInClassByName(@NotNull String simpleName) {
    return getBuiltInClassByName(Name.identifier(simpleName));
  }

  // Special

  @NotNull
  public ClassDescriptor getAny() {
    return getBuiltInClassByName("Any");
  }

  @NotNull
  public ClassDescriptor getNothing() {
    return getBuiltInClassByName("Nothing");
  }

  // Primitive

  @NotNull
  public ClassDescriptor getPrimitiveClassDescriptor(@NotNull PrimitiveType type) {
    return getBuiltInClassByName(type.getTypeName().asString());
  }

  @NotNull
  public ClassDescriptor getByte() {
    return getPrimitiveClassDescriptor(BYTE);
  }

  @NotNull
  public ClassDescriptor getShort() {
    return getPrimitiveClassDescriptor(SHORT);
  }

  @NotNull
  public ClassDescriptor getInt() {
    return getPrimitiveClassDescriptor(INT);
  }

  @NotNull
  public ClassDescriptor getLong() {
    return getPrimitiveClassDescriptor(LONG);
  }

  @NotNull
  public ClassDescriptor getFloat() {
    return getPrimitiveClassDescriptor(FLOAT);
  }

  @NotNull
  public ClassDescriptor getDouble() {
    return getPrimitiveClassDescriptor(DOUBLE);
  }

  @NotNull
  public ClassDescriptor getChar() {
    return getPrimitiveClassDescriptor(CHAR);
  }

  @NotNull
  public ClassDescriptor getBoolean() {
    return getPrimitiveClassDescriptor(BOOLEAN);
  }

  // Recognized

  @NotNull
  public Set<DeclarationDescriptor> getIntegralRanges() {
    return SetsKt.<DeclarationDescriptor>setOf(
        getBuiltInClassByName("ByteRange"),
        getBuiltInClassByName("ShortRange"),
        getBuiltInClassByName("CharRange"),
        getBuiltInClassByName("IntRange"));
  }

  @NotNull
  public ClassDescriptor getArray() {
    return getBuiltInClassByName("Array");
  }

  @NotNull
  public ClassDescriptor getPrimitiveArrayClassDescriptor(@NotNull PrimitiveType type) {
    return getBuiltInClassByName(type.getArrayTypeName().asString());
  }

  @NotNull
  public ClassDescriptor getNumber() {
    return getBuiltInClassByName("Number");
  }

  @NotNull
  public ClassDescriptor getUnit() {
    return getBuiltInClassByName("Unit");
  }

  @NotNull
  public static String getFunctionName(int parameterCount) {
    return "Function" + parameterCount;
  }

  @NotNull
  public static String getExtensionFunctionName(int parameterCount) {
    return getFunctionName(parameterCount + 1);
  }

  @NotNull
  public ClassDescriptor getFunction(int parameterCount) {
    return getBuiltInClassByName(getFunctionName(parameterCount));
  }

  /**
   * @return the descriptor representing the class kotlin.Function{parameterCount + 1}
   * @deprecated there are no ExtensionFunction classes anymore, use {@link #getFunction(int)}
   *     instead
   */
  @Deprecated
  @NotNull
  public ClassDescriptor getExtensionFunction(int parameterCount) {
    return getBuiltInClassByName(getExtensionFunctionName((parameterCount)));
  }

  @NotNull
  public ClassDescriptor getThrowable() {
    return getBuiltInClassByName("Throwable");
  }

  @NotNull
  public ClassDescriptor getCloneable() {
    return getBuiltInClassByName("Cloneable");
  }

  @NotNull
  public ClassDescriptor getDeprecatedAnnotation() {
    return getBuiltInClassByName(FQ_NAMES.deprecated.shortName());
  }

  @NotNull
  public ClassDescriptor getDeprecationLevelEnum() {
    return getBuiltInClassByName(FQ_NAMES.deprecationLevel.shortName());
  }

  @Nullable
  private static ClassDescriptor getEnumEntry(
      @NotNull ClassDescriptor enumDescriptor, @NotNull String entryName) {
    ClassifierDescriptor result =
        enumDescriptor
            .getUnsubstitutedInnerClassesScope()
            .getContributedClassifier(Name.identifier(entryName), NoLookupLocation.FROM_BUILTINS);
    return result instanceof ClassDescriptor ? (ClassDescriptor) result : null;
  }

  @Nullable
  public ClassDescriptor getDeprecationLevelEnumEntry(@NotNull String level) {
    return getEnumEntry(getDeprecationLevelEnum(), level);
  }

  @NotNull
  public ClassDescriptor getTargetAnnotation() {
    return getAnnotationClassByName(FQ_NAMES.target.shortName());
  }

  @NotNull
  public ClassDescriptor getRetentionAnnotation() {
    return getAnnotationClassByName(FQ_NAMES.retention.shortName());
  }

  @NotNull
  public ClassDescriptor getRepeatableAnnotation() {
    return getAnnotationClassByName(FQ_NAMES.repeatable.shortName());
  }

  @NotNull
  public ClassDescriptor getMustBeDocumentedAnnotation() {
    return getAnnotationClassByName(FQ_NAMES.mustBeDocumented.shortName());
  }

  @NotNull
  public ClassDescriptor getAnnotationTargetEnum() {
    return getAnnotationClassByName(FQ_NAMES.annotationTarget.shortName());
  }

  @Nullable
  public ClassDescriptor getAnnotationTargetEnumEntry(@NotNull KotlinTarget target) {
    return getEnumEntry(getAnnotationTargetEnum(), target.name());
  }

  @NotNull
  public ClassDescriptor getAnnotationRetentionEnum() {
    return getAnnotationClassByName(FQ_NAMES.annotationRetention.shortName());
  }

  @Nullable
  public ClassDescriptor getAnnotationRetentionEnumEntry(@NotNull KotlinRetention retention) {
    return getEnumEntry(getAnnotationRetentionEnum(), retention.name());
  }

  @NotNull
  public ClassDescriptor getString() {
    return getBuiltInClassByName("String");
  }

  @NotNull
  public ClassDescriptor getCharSequence() {
    return getBuiltInClassByName("CharSequence");
  }

  @NotNull
  public ClassDescriptor getComparable() {
    return getBuiltInClassByName("Comparable");
  }

  @NotNull
  public ClassDescriptor getEnum() {
    return getBuiltInClassByName("Enum");
  }

  @NotNull
  public ClassDescriptor getAnnotation() {
    return getBuiltInClassByName("Annotation");
  }

  @NotNull
  public ClassDescriptor getIterator() {
    return getBuiltInClassByName("Iterator");
  }

  @NotNull
  public ClassDescriptor getIterable() {
    return getBuiltInClassByName("Iterable");
  }

  @NotNull
  public ClassDescriptor getMutableIterable() {
    return getBuiltInClassByName("MutableIterable");
  }

  @NotNull
  public ClassDescriptor getMutableIterator() {
    return getBuiltInClassByName("MutableIterator");
  }

  @NotNull
  public ClassDescriptor getCollection() {
    return getBuiltInClassByName("Collection");
  }

  @NotNull
  public ClassDescriptor getMutableCollection() {
    return getBuiltInClassByName("MutableCollection");
  }

  @NotNull
  public ClassDescriptor getList() {
    return getBuiltInClassByName("List");
  }

  @NotNull
  public ClassDescriptor getMutableList() {
    return getBuiltInClassByName("MutableList");
  }

  @NotNull
  public ClassDescriptor getSet() {
    return getBuiltInClassByName("Set");
  }

  @NotNull
  public ClassDescriptor getMutableSet() {
    return getBuiltInClassByName("MutableSet");
  }

  @NotNull
  public ClassDescriptor getMap() {
    return getBuiltInClassByName("Map");
  }

  @NotNull
  public ClassDescriptor getMutableMap() {
    return getBuiltInClassByName("MutableMap");
  }

  @NotNull
  public ClassDescriptor getMapEntry() {
    ClassDescriptor classDescriptor =
        DescriptorUtils.getInnerClassByName(getMap(), "Entry", NoLookupLocation.FROM_BUILTINS);
    assert classDescriptor != null : "Can't find Map.Entry";
    return classDescriptor;
  }

  @NotNull
  public ClassDescriptor getMutableMapEntry() {
    ClassDescriptor classDescriptor =
        DescriptorUtils.getInnerClassByName(
            getMutableMap(), "MutableEntry", NoLookupLocation.FROM_BUILTINS);
    assert classDescriptor != null : "Can't find MutableMap.MutableEntry";
    return classDescriptor;
  }

  @NotNull
  public ClassDescriptor getListIterator() {
    return getBuiltInClassByName("ListIterator");
  }

  @NotNull
  public ClassDescriptor getMutableListIterator() {
    return getBuiltInClassByName("MutableListIterator");
  }

  ////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////

  // GET TYPE

  ////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////

  @NotNull
  private KotlinType getBuiltInTypeByClassName(@NotNull String classSimpleName) {
    return getBuiltInClassByName(classSimpleName).getDefaultType();
  }

  // Special

  @NotNull
  public KotlinType getNothingType() {
    return getNothing().getDefaultType();
  }

  @NotNull
  public KotlinType getNullableNothingType() {
    return TypeUtils.makeNullable(getNothingType());
  }

  @NotNull
  public KotlinType getAnyType() {
    return getAny().getDefaultType();
  }

  @NotNull
  public KotlinType getNullableAnyType() {
    return TypeUtils.makeNullable(getAnyType());
  }

  // Primitive

  @NotNull
  public KotlinType getPrimitiveKotlinType(@NotNull PrimitiveType type) {
    return getPrimitiveClassDescriptor(type).getDefaultType();
  }

  @NotNull
  public KotlinType getByteType() {
    return getPrimitiveKotlinType(BYTE);
  }

  @NotNull
  public KotlinType getShortType() {
    return getPrimitiveKotlinType(SHORT);
  }

  @NotNull
  public KotlinType getIntType() {
    return getPrimitiveKotlinType(INT);
  }

  @NotNull
  public KotlinType getLongType() {
    return getPrimitiveKotlinType(LONG);
  }

  @NotNull
  public KotlinType getFloatType() {
    return getPrimitiveKotlinType(FLOAT);
  }

  @NotNull
  public KotlinType getDoubleType() {
    return getPrimitiveKotlinType(DOUBLE);
  }

  @NotNull
  public KotlinType getCharType() {
    return getPrimitiveKotlinType(CHAR);
  }

  @NotNull
  public KotlinType getBooleanType() {
    return getPrimitiveKotlinType(BOOLEAN);
  }

  // Recognized

  @NotNull
  public KotlinType getUnitType() {
    return getUnit().getDefaultType();
  }

  @NotNull
  public KotlinType getStringType() {
    return getString().getDefaultType();
  }

  @NotNull
  public KotlinType getArrayElementType(@NotNull KotlinType arrayType) {
    if (isArray(arrayType)) {
      if (arrayType.getArguments().size() != 1) {
        throw new IllegalStateException();
      }
      return arrayType.getArguments().get(0).getType();
    }
    KotlinType primitiveType =
        kotlinArrayTypeToPrimitiveKotlinType.get(TypeUtils.makeNotNullable(arrayType));
    if (primitiveType == null) {
      throw new IllegalStateException("not array: " + arrayType);
    }
    return primitiveType;
  }

  @NotNull
  public KotlinType getPrimitiveArrayKotlinType(@NotNull PrimitiveType primitiveType) {
    return primitiveTypeToArrayKotlinType.get(primitiveType);
  }

  /** @return {@code null} if not primitive */
  @Nullable
  public KotlinType getPrimitiveArrayKotlinTypeByPrimitiveKotlinType(
      @NotNull KotlinType kotlinType) {
    return primitiveKotlinTypeToKotlinArrayType.get(kotlinType);
  }

  public static boolean isPrimitiveArray(@NotNull FqNameUnsafe arrayFqName) {
    return getPrimitiveTypeByArrayClassFqName(arrayFqName) != null;
  }

  @Nullable
  public static PrimitiveType getPrimitiveTypeByFqName(@NotNull FqNameUnsafe primitiveClassFqName) {
    return FQ_NAMES.fqNameToPrimitiveType.get(primitiveClassFqName);
  }

  @Nullable
  public static PrimitiveType getPrimitiveTypeByArrayClassFqName(
      @NotNull FqNameUnsafe primitiveArrayClassFqName) {
    return FQ_NAMES.arrayClassFqNameToPrimitiveType.get(primitiveArrayClassFqName);
  }

  @NotNull
  public KotlinType getArrayType(@NotNull Variance projectionType, @NotNull KotlinType argument) {
    List<TypeProjectionImpl> types =
        Collections.singletonList(new TypeProjectionImpl(projectionType, argument));
    return KotlinTypeImpl.create(Annotations.Companion.getEMPTY(), getArray(), false, types);
  }

  @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);
  }

  @NotNull
  public KotlinType getAnnotationType() {
    return getAnnotation().getDefaultType();
  }

  @NotNull
  public AnnotationDescriptor createExtensionAnnotation() {
    return new AnnotationDescriptorImpl(
        getBuiltInClassByName(FQ_NAMES.extensionFunctionType.shortName()).getDefaultType(),
        Collections.<ValueParameterDescriptor, ConstantValue<?>>emptyMap(),
        SourceElement.NO_SOURCE);
  }

  private static boolean isTypeAnnotatedWithExtension(@NotNull KotlinType type) {
    return type.getAnnotations().findAnnotation(FQ_NAMES.extensionFunctionType) != null
        || type.getAnnotations().findAnnotation(FQ_NAMES.deprecatedExtensionAnnotation) != null;
  }

  @NotNull
  public KotlinType getFunctionType(
      @NotNull Annotations annotations,
      @Nullable KotlinType receiverType,
      @NotNull List<KotlinType> parameterTypes,
      @NotNull KotlinType returnType) {
    List<TypeProjection> arguments =
        getFunctionTypeArgumentProjections(receiverType, parameterTypes, returnType);
    int size = parameterTypes.size();
    ClassDescriptor classDescriptor =
        receiverType == null ? getFunction(size) : getExtensionFunction(size);

    Annotations typeAnnotations =
        receiverType == null ? annotations : addExtensionFunctionTypeAnnotation(annotations);

    return KotlinTypeImpl.create(typeAnnotations, classDescriptor, false, arguments);
  }

  @NotNull
  private Annotations addExtensionFunctionTypeAnnotation(@NotNull Annotations annotations) {
    if (annotations.findAnnotation(FQ_NAMES.extensionFunctionType) != null) return annotations;

    // TODO: preserve laziness of given annotations
    return new AnnotationsImpl(plus(annotations, listOf(createExtensionAnnotation())));
  }

  @NotNull
  public static List<TypeProjection> getFunctionTypeArgumentProjections(
      @Nullable KotlinType receiverType,
      @NotNull List<KotlinType> parameterTypes,
      @NotNull KotlinType returnType) {
    List<TypeProjection> arguments =
        new ArrayList<TypeProjection>(parameterTypes.size() + (receiverType != null ? 1 : 0) + 1);
    if (receiverType != null) {
      arguments.add(defaultProjection(receiverType));
    }
    for (KotlinType parameterType : parameterTypes) {
      arguments.add(defaultProjection(parameterType));
    }
    arguments.add(defaultProjection(returnType));
    return arguments;
  }

  private static TypeProjection defaultProjection(KotlinType returnType) {
    return new TypeProjectionImpl(Variance.INVARIANT, returnType);
  }

  ////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////

  // IS TYPE

  ////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////

  public static boolean isArray(@NotNull KotlinType type) {
    return isConstructedFromGivenClass(type, FQ_NAMES.array);
  }

  public static boolean isPrimitiveArray(@NotNull KotlinType type) {
    ClassifierDescriptor descriptor = type.getConstructor().getDeclarationDescriptor();
    return descriptor != null && getPrimitiveTypeByArrayClassFqName(getFqName(descriptor)) != null;
  }

  public static boolean isPrimitiveType(@NotNull KotlinType type) {
    ClassifierDescriptor descriptor = type.getConstructor().getDeclarationDescriptor();
    return !type.isMarkedNullable()
        && descriptor instanceof ClassDescriptor
        && isPrimitiveClass((ClassDescriptor) descriptor);
  }

  public static boolean isPrimitiveClass(@NotNull ClassDescriptor descriptor) {
    return getPrimitiveTypeByFqName(getFqName(descriptor)) != null;
  }

  // Functions

  public static boolean isFunctionOrExtensionFunctionType(@NotNull KotlinType type) {
    return isFunctionType(type) || isExtensionFunctionType(type);
  }

  public static boolean isFunctionType(@NotNull KotlinType type) {
    if (isExactFunctionType(type)) return true;

    for (KotlinType superType : type.getConstructor().getSupertypes()) {
      if (isFunctionType(superType)) return true;
    }

    return false;
  }

  public static boolean isExtensionFunctionType(@NotNull KotlinType type) {
    if (isExactExtensionFunctionType(type)) return true;

    for (KotlinType superType : type.getConstructor().getSupertypes()) {
      if (isExtensionFunctionType(superType)) return true;
    }

    return false;
  }

  public static boolean isExactFunctionOrExtensionFunctionType(@NotNull KotlinType type) {
    ClassifierDescriptor descriptor = type.getConstructor().getDeclarationDescriptor();
    return descriptor != null && isNumberedFunctionClassFqName(getFqName(descriptor));
  }

  public static boolean isExactFunctionType(@NotNull KotlinType type) {
    return isExactFunctionOrExtensionFunctionType(type) && !isTypeAnnotatedWithExtension(type);
  }

  public static boolean isExactExtensionFunctionType(@NotNull KotlinType type) {
    return isExactFunctionOrExtensionFunctionType(type) && isTypeAnnotatedWithExtension(type);
  }

  /**
   * @return true if this is an FQ name of a fictitious class representing the function type, e.g.
   *     kotlin.Function1 (but NOT kotlin.reflect.KFunction1)
   */
  public static boolean isNumberedFunctionClassFqName(@NotNull FqNameUnsafe fqName) {
    List<Name> segments = fqName.pathSegments();
    if (segments.size() != 2) return false;

    if (!BUILT_INS_PACKAGE_NAME.equals(first(segments))) return false;

    String shortName = last(segments).asString();
    return BuiltInFictitiousFunctionClassFactory.parseClassName(
            shortName, BUILT_INS_PACKAGE_FQ_NAME)
        != null;
  }

  @Nullable
  public static KotlinType getReceiverType(@NotNull KotlinType type) {
    assert isFunctionOrExtensionFunctionType(type) : type;
    if (isExtensionFunctionType(type)) {
      // TODO: this is incorrect when a class extends from an extension function and swaps type
      // arguments
      return type.getArguments().get(0).getType();
    }
    return null;
  }

  @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 static KotlinType getReturnTypeFromFunctionType(@NotNull KotlinType type) {
    assert isFunctionOrExtensionFunctionType(type);
    List<TypeProjection> arguments = type.getArguments();
    return arguments.get(arguments.size() - 1).getType();
  }

  @NotNull
  public static List<TypeProjection> getParameterTypeProjectionsFromFunctionType(
      @NotNull KotlinType type) {
    assert isFunctionOrExtensionFunctionType(type);
    List<TypeProjection> arguments = type.getArguments();
    int first = isExtensionFunctionType(type) ? 1 : 0;
    int last = arguments.size() - 2;
    // TODO: fix bugs associated with this here and in neighboring methods, see KT-9820
    assert first <= last + 1 : "Not an exact function type: " + type;
    List<TypeProjection> parameterTypes = new ArrayList<TypeProjection>(last - first + 1);
    for (int i = first; i <= last; i++) {
      parameterTypes.add(arguments.get(i));
    }
    return parameterTypes;
  }

  // Recognized & special

  private static boolean isConstructedFromGivenClass(
      @NotNull KotlinType type, @NotNull FqNameUnsafe fqName) {
    ClassifierDescriptor descriptor = type.getConstructor().getDeclarationDescriptor();
    return descriptor != null
        &&
        /* quick check to avoid creation of full FqName instance */ descriptor
            .getName()
            .equals(fqName.shortName())
        && fqName.equals(getFqName(descriptor));
  }

  private static boolean isNotNullConstructedFromGivenClass(
      @NotNull KotlinType type, @NotNull FqNameUnsafe fqName) {
    return !type.isMarkedNullable() && isConstructedFromGivenClass(type, fqName);
  }

  public static boolean isSpecialClassWithNoSupertypes(@NotNull ClassDescriptor descriptor) {
    FqNameUnsafe fqName = getFqName(descriptor);
    return FQ_NAMES.any.equals(fqName) || FQ_NAMES.nothing.equals(fqName);
  }

  public static boolean isAny(@NotNull ClassDescriptor descriptor) {
    return isAny(getFqName(descriptor));
  }

  public static boolean isAny(@NotNull KotlinType type) {
    return isConstructedFromGivenClassAndNotNullable(type, FQ_NAMES.any);
  }

  public static boolean isBoolean(@NotNull KotlinType type) {

    return isConstructedFromGivenClassAndNotNullable(type, FQ_NAMES._boolean);
  }

  public static boolean isBooleanOrNullableBoolean(@NotNull KotlinType type) {
    return isConstructedFromGivenClass(type, FQ_NAMES._boolean);
  }

  public static boolean isBoolean(@NotNull ClassDescriptor classDescriptor) {
    return FQ_NAMES._boolean.equals(getFqName(classDescriptor));
  }

  public static boolean isChar(@NotNull KotlinType type) {
    return isConstructedFromGivenClassAndNotNullable(type, FQ_NAMES._char);
  }

  public static boolean isInt(@NotNull KotlinType type) {
    return isConstructedFromGivenClassAndNotNullable(type, FQ_NAMES._int);
  }

  public static boolean isByte(@NotNull KotlinType type) {
    return isConstructedFromGivenClassAndNotNullable(type, FQ_NAMES._byte);
  }

  public static boolean isLong(@NotNull KotlinType type) {
    return isConstructedFromGivenClassAndNotNullable(type, FQ_NAMES._long);
  }

  public static boolean isShort(@NotNull KotlinType type) {
    return isConstructedFromGivenClassAndNotNullable(type, FQ_NAMES._short);
  }

  public static boolean isFloat(@NotNull KotlinType type) {
    return isConstructedFromGivenClassAndNotNullable(type, FQ_NAMES._float);
  }

  public static boolean isDouble(@NotNull KotlinType type) {
    return isConstructedFromGivenClassAndNotNullable(type, FQ_NAMES._double);
  }

  private static boolean isConstructedFromGivenClassAndNotNullable(
      @NotNull KotlinType type, @NotNull FqNameUnsafe fqName) {
    return isConstructedFromGivenClass(type, fqName) && !type.isMarkedNullable();
  }

  public static boolean isAny(@NotNull FqNameUnsafe fqName) {
    return FQ_NAMES.any.equals(fqName);
  }

  public static boolean isNothing(@NotNull KotlinType type) {
    return isNothingOrNullableNothing(type) && !type.isMarkedNullable();
  }

  public static boolean isNullableNothing(@NotNull KotlinType type) {
    return isNothingOrNullableNothing(type) && type.isMarkedNullable();
  }

  public static boolean isNothingOrNullableNothing(@NotNull KotlinType type) {
    return isConstructedFromGivenClass(type, FQ_NAMES.nothing);
  }

  public static boolean isAnyOrNullableAny(@NotNull KotlinType type) {
    return isConstructedFromGivenClass(type, FQ_NAMES.any);
  }

  public static boolean isNullableAny(@NotNull KotlinType type) {
    return isAnyOrNullableAny(type) && type.isMarkedNullable();
  }

  public static boolean isDefaultBound(@NotNull KotlinType type) {
    return isNullableAny(type);
  }

  public static boolean isUnit(@NotNull KotlinType type) {
    return isNotNullConstructedFromGivenClass(type, FQ_NAMES.unit);
  }

  public boolean isBooleanOrSubtype(@NotNull KotlinType type) {
    return KotlinTypeChecker.DEFAULT.isSubtypeOf(type, getBooleanType());
  }

  public boolean isMemberOfAny(@NotNull DeclarationDescriptor descriptor) {
    return descriptor.getContainingDeclaration() == getAny();
  }

  public static boolean isString(@Nullable KotlinType type) {
    return type != null && isNotNullConstructedFromGivenClass(type, FQ_NAMES.string);
  }

  public static boolean isCollectionOrNullableCollection(@NotNull KotlinType type) {
    return isConstructedFromGivenClass(type, FQ_NAMES._collection);
  }

  public static boolean isListOrNullableList(@NotNull KotlinType type) {
    return isConstructedFromGivenClass(type, FQ_NAMES._list);
  }

  public static boolean isSetOrNullableSet(@NotNull KotlinType type) {
    return isConstructedFromGivenClass(type, FQ_NAMES._set);
  }

  public static boolean isIterableOrNullableIterable(@NotNull KotlinType type) {
    return isConstructedFromGivenClass(type, FQ_NAMES._iterable);
  }

  public static boolean isKClass(@NotNull ClassDescriptor descriptor) {
    return FQ_NAMES.kClass.equals(getFqName(descriptor));
  }

  public static boolean isNonPrimitiveArray(@NotNull ClassDescriptor descriptor) {
    return FQ_NAMES.array.equals(getFqName(descriptor));
  }

  public static boolean isCloneable(@NotNull ClassDescriptor descriptor) {
    return FQ_NAMES.cloneable.equals(getFqName(descriptor));
  }

  public static boolean isDeprecated(@NotNull DeclarationDescriptor declarationDescriptor) {
    if (containsAnnotation(declarationDescriptor, FQ_NAMES.deprecated)) return true;

    if (declarationDescriptor instanceof PropertyDescriptor) {
      boolean isVar = ((PropertyDescriptor) declarationDescriptor).isVar();
      PropertyGetterDescriptor getter = ((PropertyDescriptor) declarationDescriptor).getGetter();
      PropertySetterDescriptor setter = ((PropertyDescriptor) declarationDescriptor).getSetter();
      return getter != null
          && isDeprecated(getter)
          && (!isVar || setter != null && isDeprecated(setter));
    }

    return false;
  }

  public static boolean isSuppressAnnotation(@NotNull AnnotationDescriptor annotationDescriptor) {
    return isConstructedFromGivenClass(annotationDescriptor.getType(), FQ_NAMES.suppress);
  }

  private static boolean containsAnnotation(
      DeclarationDescriptor descriptor, FqName annotationClassFqName) {
    DeclarationDescriptor original = descriptor.getOriginal();
    Annotations annotations = original.getAnnotations();

    if (annotations.findAnnotation(annotationClassFqName) != null) return true;

    AnnotationUseSiteTarget associatedUseSiteTarget =
        AnnotationUseSiteTarget.Companion.getAssociatedUseSiteTarget(descriptor);
    if (associatedUseSiteTarget != null) {
      if (Annotations.Companion.findUseSiteTargetedAnnotation(
              annotations, associatedUseSiteTarget, annotationClassFqName)
          != null) {
        return true;
      }
    }

    return false;
  }

  ////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////

  @NotNull
  public KotlinType getDefaultBound() {
    return getNullableAnyType();
  }

  ////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////

  // GET FUNCTION

  ////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////

  @NotNull
  public FunctionDescriptor getIdentityEquals() {
    return first(
        getBuiltInsPackageFragment()
            .getMemberScope()
            .getContributedFunctions(
                Name.identifier("identityEquals"), NoLookupLocation.FROM_BUILTINS));
  }
}
Beispiel #2
0
 @NotNull
 private static FqNameUnsafe reflect(@NotNull String simpleName) {
   return ReflectionTypesKt.getKOTLIN_REFLECT_FQ_NAME()
       .child(Name.identifier(simpleName))
       .toUnsafe();
 }