| /* |
| * Copyright (c) 2009, 2013, Oracle and/or its affiliates. All rights reserved. |
| * DO NOT ALTER OR REMOVE COPYRIGHT NOTICES OR THIS FILE HEADER. |
| * |
| * This code is free software; you can redistribute it and/or modify it |
| * under the terms of the GNU General Public License version 2 only, as |
| * published by the Free Software Foundation. Oracle designates this |
| * particular file as subject to the "Classpath" exception as provided |
| * by Oracle in the LICENSE file that accompanied this code. |
| * |
| * This code is distributed in the hope that it will be useful, but WITHOUT |
| * ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or |
| * FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License |
| * version 2 for more details (a copy is included in the LICENSE file that |
| * accompanied this code). |
| * |
| * You should have received a copy of the GNU General Public License version |
| * 2 along with this work; if not, write to the Free Software Foundation, |
| * Inc., 51 Franklin St, Fifth Floor, Boston, MA 02110-1301 USA. |
| * |
| * Please contact Oracle, 500 Oracle Parkway, Redwood Shores, CA 94065 USA |
| * or visit www.oracle.com if you need additional information or have any |
| * questions. |
| */ |
| |
| package com.sun.tools.javac.code; |
| |
| import javax.lang.model.element.Element; |
| import javax.lang.model.element.ElementKind; |
| import javax.lang.model.type.TypeKind; |
| |
| import javax.tools.JavaFileObject; |
| |
| import com.sun.tools.javac.code.Attribute; |
| import com.sun.tools.javac.code.Attribute.TypeCompound; |
| import com.sun.tools.javac.code.Flags; |
| import com.sun.tools.javac.code.Kinds; |
| import com.sun.tools.javac.code.Type.AnnotatedType; |
| import com.sun.tools.javac.code.Type.ArrayType; |
| import com.sun.tools.javac.code.Type.CapturedType; |
| import com.sun.tools.javac.code.Type.ClassType; |
| import com.sun.tools.javac.code.Type.ErrorType; |
| import com.sun.tools.javac.code.Type.ForAll; |
| import com.sun.tools.javac.code.Type.MethodType; |
| import com.sun.tools.javac.code.Type.PackageType; |
| import com.sun.tools.javac.code.Type.TypeVar; |
| import com.sun.tools.javac.code.Type.UndetVar; |
| import com.sun.tools.javac.code.Type.Visitor; |
| import com.sun.tools.javac.code.Type.WildcardType; |
| import com.sun.tools.javac.code.TypeAnnotationPosition.TypePathEntry; |
| import com.sun.tools.javac.code.TypeAnnotationPosition.TypePathEntryKind; |
| import com.sun.tools.javac.code.TypeTag; |
| import com.sun.tools.javac.code.Symbol.VarSymbol; |
| import com.sun.tools.javac.code.Symbol.MethodSymbol; |
| import com.sun.tools.javac.comp.Annotate; |
| import com.sun.tools.javac.comp.Annotate.Annotator; |
| import com.sun.tools.javac.comp.AttrContext; |
| import com.sun.tools.javac.comp.Env; |
| import com.sun.tools.javac.tree.JCTree; |
| import com.sun.tools.javac.tree.TreeInfo; |
| import com.sun.tools.javac.tree.JCTree.JCBlock; |
| import com.sun.tools.javac.tree.JCTree.JCClassDecl; |
| import com.sun.tools.javac.tree.JCTree.JCExpression; |
| import com.sun.tools.javac.tree.JCTree.JCLambda; |
| import com.sun.tools.javac.tree.JCTree.JCMethodDecl; |
| import com.sun.tools.javac.tree.JCTree.JCMethodInvocation; |
| import com.sun.tools.javac.tree.JCTree.JCNewClass; |
| import com.sun.tools.javac.tree.JCTree.JCTypeApply; |
| import com.sun.tools.javac.tree.JCTree.JCVariableDecl; |
| import com.sun.tools.javac.tree.TreeScanner; |
| import com.sun.tools.javac.tree.JCTree.*; |
| import com.sun.tools.javac.util.Assert; |
| import com.sun.tools.javac.util.List; |
| import com.sun.tools.javac.util.ListBuffer; |
| import com.sun.tools.javac.util.Log; |
| import com.sun.tools.javac.util.Names; |
| |
| /** |
| * Contains operations specific to processing type annotations. |
| * This class has two functions: |
| * separate declaration from type annotations and insert the type |
| * annotations to their types; |
| * and determine the TypeAnnotationPositions for all type annotations. |
| */ |
| public class TypeAnnotations { |
| // Class cannot be instantiated. |
| private TypeAnnotations() {} |
| |
| /** |
| * Separate type annotations from declaration annotations and |
| * determine the correct positions for type annotations. |
| * This version only visits types in signatures and should be |
| * called from MemberEnter. |
| * The method takes the Annotate object as parameter and |
| * adds an Annotator to the correct Annotate queue for |
| * later processing. |
| */ |
| public static void organizeTypeAnnotationsSignatures(final Symtab syms, final Names names, |
| final Log log, final Env<AttrContext> env, final JCClassDecl tree, final Annotate annotate) { |
| annotate.afterRepeated( new Annotator() { |
| @Override |
| public void enterAnnotation() { |
| JavaFileObject oldSource = log.useSource(env.toplevel.sourcefile); |
| |
| try { |
| new TypeAnnotationPositions(syms, names, log, true).scan(tree); |
| } finally { |
| log.useSource(oldSource); |
| } |
| } |
| } ); |
| } |
| |
| /** |
| * This version only visits types in bodies, that is, field initializers, |
| * top-level blocks, and method bodies, and should be called from Attr. |
| */ |
| public static void organizeTypeAnnotationsBodies(Symtab syms, Names names, Log log, JCClassDecl tree) { |
| new TypeAnnotationPositions(syms, names, log, false).scan(tree); |
| } |
| |
| public enum AnnotationType { DECLARATION, TYPE, BOTH }; |
| |
| /** |
| * Determine whether an annotation is a declaration annotation, |
| * a type annotation, or both. |
| */ |
| public static AnnotationType annotationType(Symtab syms, Names names, |
| Attribute.Compound a, Symbol s) { |
| Attribute.Compound atTarget = |
| a.type.tsym.attribute(syms.annotationTargetType.tsym); |
| if (atTarget == null) { |
| return inferTargetMetaInfo(a, s); |
| } |
| Attribute atValue = atTarget.member(names.value); |
| if (!(atValue instanceof Attribute.Array)) { |
| Assert.error("annotationType(): bad @Target argument " + atValue + |
| " (" + atValue.getClass() + ")"); |
| return AnnotationType.DECLARATION; // error recovery |
| } |
| Attribute.Array arr = (Attribute.Array) atValue; |
| boolean isDecl = false, isType = false; |
| for (Attribute app : arr.values) { |
| if (!(app instanceof Attribute.Enum)) { |
| Assert.error("annotationType(): unrecognized Attribute kind " + app + |
| " (" + app.getClass() + ")"); |
| isDecl = true; |
| continue; |
| } |
| Attribute.Enum e = (Attribute.Enum) app; |
| if (e.value.name == names.TYPE) { |
| if (s.kind == Kinds.TYP) |
| isDecl = true; |
| } else if (e.value.name == names.FIELD) { |
| if (s.kind == Kinds.VAR && |
| s.owner.kind != Kinds.MTH) |
| isDecl = true; |
| } else if (e.value.name == names.METHOD) { |
| if (s.kind == Kinds.MTH && |
| !s.isConstructor()) |
| isDecl = true; |
| } else if (e.value.name == names.PARAMETER) { |
| if (s.kind == Kinds.VAR && |
| s.owner.kind == Kinds.MTH && |
| (s.flags() & Flags.PARAMETER) != 0) |
| isDecl = true; |
| } else if (e.value.name == names.CONSTRUCTOR) { |
| if (s.kind == Kinds.MTH && |
| s.isConstructor()) |
| isDecl = true; |
| } else if (e.value.name == names.LOCAL_VARIABLE) { |
| if (s.kind == Kinds.VAR && |
| s.owner.kind == Kinds.MTH && |
| (s.flags() & Flags.PARAMETER) == 0) |
| isDecl = true; |
| } else if (e.value.name == names.ANNOTATION_TYPE) { |
| if (s.kind == Kinds.TYP && |
| (s.flags() & Flags.ANNOTATION) != 0) |
| isDecl = true; |
| } else if (e.value.name == names.PACKAGE) { |
| if (s.kind == Kinds.PCK) |
| isDecl = true; |
| } else if (e.value.name == names.TYPE_USE) { |
| if (s.kind == Kinds.TYP || |
| s.kind == Kinds.VAR || |
| (s.kind == Kinds.MTH && !s.isConstructor() && |
| !s.type.getReturnType().hasTag(TypeTag.VOID)) || |
| (s.kind == Kinds.MTH && s.isConstructor())) |
| isType = true; |
| } else if (e.value.name == names.TYPE_PARAMETER) { |
| /* Irrelevant in this case */ |
| // TYPE_PARAMETER doesn't aid in distinguishing between |
| // Type annotations and declaration annotations on an |
| // Element |
| } else { |
| Assert.error("annotationType(): unrecognized Attribute name " + e.value.name + |
| " (" + e.value.name.getClass() + ")"); |
| isDecl = true; |
| } |
| } |
| if (isDecl && isType) { |
| return AnnotationType.BOTH; |
| } else if (isType) { |
| return AnnotationType.TYPE; |
| } else { |
| return AnnotationType.DECLARATION; |
| } |
| } |
| |
| /** Infer the target annotation kind, if none is give. |
| * We only infer declaration annotations. |
| */ |
| private static AnnotationType inferTargetMetaInfo(Attribute.Compound a, Symbol s) { |
| return AnnotationType.DECLARATION; |
| } |
| |
| |
| private static class TypeAnnotationPositions extends TreeScanner { |
| |
| private final Symtab syms; |
| private final Names names; |
| private final Log log; |
| private final boolean sigOnly; |
| |
| private TypeAnnotationPositions(Symtab syms, Names names, Log log, boolean sigOnly) { |
| this.syms = syms; |
| this.names = names; |
| this.log = log; |
| this.sigOnly = sigOnly; |
| } |
| |
| /* |
| * When traversing the AST we keep the "frames" of visited |
| * trees in order to determine the position of annotations. |
| */ |
| private ListBuffer<JCTree> frames = ListBuffer.lb(); |
| |
| protected void push(JCTree t) { frames = frames.prepend(t); } |
| protected JCTree pop() { return frames.next(); } |
| // could this be frames.elems.tail.head? |
| private JCTree peek2() { return frames.toList().tail.head; } |
| |
| @Override |
| public void scan(JCTree tree) { |
| push(tree); |
| super.scan(tree); |
| pop(); |
| } |
| |
| /** |
| * Separates type annotations from declaration annotations. |
| * This step is needed because in certain locations (where declaration |
| * and type annotations can be mixed, e.g. the type of a field) |
| * we never build an JCAnnotatedType. This step finds these |
| * annotations and marks them as if they were part of the type. |
| */ |
| private void separateAnnotationsKinds(JCTree typetree, Type type, Symbol sym, |
| TypeAnnotationPosition pos) { |
| /* |
| System.out.printf("separateAnnotationsKinds(typetree: %s, type: %s, symbol: %s, pos: %s%n", |
| typetree, type, sym, pos); |
| */ |
| List<Attribute.Compound> annotations = sym.getRawAttributes(); |
| ListBuffer<Attribute.Compound> declAnnos = new ListBuffer<Attribute.Compound>(); |
| ListBuffer<Attribute.TypeCompound> typeAnnos = new ListBuffer<Attribute.TypeCompound>(); |
| |
| for (Attribute.Compound a : annotations) { |
| switch (annotationType(syms, names, a, sym)) { |
| case DECLARATION: |
| declAnnos.append(a); |
| break; |
| case BOTH: { |
| declAnnos.append(a); |
| Attribute.TypeCompound ta = toTypeCompound(a, pos); |
| typeAnnos.append(ta); |
| break; |
| } |
| case TYPE: { |
| Attribute.TypeCompound ta = toTypeCompound(a, pos); |
| typeAnnos.append(ta); |
| break; |
| } |
| } |
| } |
| |
| sym.resetAnnotations(); |
| sym.setDeclarationAttributes(declAnnos.toList()); |
| |
| if (typeAnnos.isEmpty()) { |
| return; |
| } |
| |
| List<Attribute.TypeCompound> typeAnnotations = typeAnnos.toList(); |
| |
| if (type == null) { |
| // When type is null, put the type annotations to the symbol. |
| // This is used for constructor return annotations, for which |
| // no appropriate type exists. |
| sym.appendUniqueTypeAttributes(typeAnnotations); |
| return; |
| } |
| |
| // type is non-null and annotations are added to that type |
| type = typeWithAnnotations(typetree, type, typeAnnotations, log); |
| |
| if (sym.getKind() == ElementKind.METHOD) { |
| sym.type.asMethodType().restype = type; |
| } else if (sym.getKind() == ElementKind.PARAMETER) { |
| sym.type = type; |
| if (sym.getQualifiedName().equals(names._this)) { |
| sym.owner.type.asMethodType().recvtype = type; |
| // note that the typeAnnotations will also be added to the owner below. |
| } else { |
| MethodType methType = sym.owner.type.asMethodType(); |
| List<VarSymbol> params = ((MethodSymbol)sym.owner).params; |
| List<Type> oldArgs = methType.argtypes; |
| ListBuffer<Type> newArgs = new ListBuffer<Type>(); |
| while (params.nonEmpty()) { |
| if (params.head == sym) { |
| newArgs.add(type); |
| } else { |
| newArgs.add(oldArgs.head); |
| } |
| oldArgs = oldArgs.tail; |
| params = params.tail; |
| } |
| methType.argtypes = newArgs.toList(); |
| } |
| } else { |
| sym.type = type; |
| } |
| |
| sym.appendUniqueTypeAttributes(typeAnnotations); |
| |
| if (sym.getKind() == ElementKind.PARAMETER || |
| sym.getKind() == ElementKind.LOCAL_VARIABLE || |
| sym.getKind() == ElementKind.RESOURCE_VARIABLE || |
| sym.getKind() == ElementKind.EXCEPTION_PARAMETER) { |
| // Make sure all type annotations from the symbol are also |
| // on the owner. |
| sym.owner.appendUniqueTypeAttributes(sym.getRawTypeAttributes()); |
| } |
| } |
| |
| // This method has a similar purpose as |
| // {@link com.sun.tools.javac.parser.JavacParser.insertAnnotationsToMostInner(JCExpression, List<JCTypeAnnotation>, boolean)} |
| // We found a type annotation in a declaration annotation position, |
| // for example, on the return type. |
| // Such an annotation is _not_ part of an JCAnnotatedType tree and we therefore |
| // need to set its position explicitly. |
| // The method returns a copy of type that contains these annotations. |
| // |
| // As a side effect the method sets the type annotation position of "annotations". |
| // Note that it is assumed that all annotations share the same position. |
| private static Type typeWithAnnotations(final JCTree typetree, final Type type, |
| final List<Attribute.TypeCompound> annotations, Log log) { |
| // System.out.printf("typeWithAnnotations(typetree: %s, type: %s, annotations: %s)%n", |
| // typetree, type, annotations); |
| if (annotations.isEmpty()) { |
| return type; |
| } |
| if (type.hasTag(TypeTag.ARRAY)) { |
| Type toreturn; |
| Type.ArrayType tomodify; |
| Type.ArrayType arType; |
| { |
| Type touse = type; |
| if (type.isAnnotated()) { |
| Type.AnnotatedType atype = (Type.AnnotatedType)type; |
| toreturn = new Type.AnnotatedType(atype.underlyingType); |
| ((Type.AnnotatedType)toreturn).typeAnnotations = atype.typeAnnotations; |
| touse = atype.underlyingType; |
| arType = (Type.ArrayType) touse; |
| tomodify = new Type.ArrayType(null, arType.tsym); |
| ((Type.AnnotatedType)toreturn).underlyingType = tomodify; |
| } else { |
| arType = (Type.ArrayType) touse; |
| tomodify = new Type.ArrayType(null, arType.tsym); |
| toreturn = tomodify; |
| } |
| } |
| JCArrayTypeTree arTree = arrayTypeTree(typetree); |
| |
| ListBuffer<TypePathEntry> depth = ListBuffer.lb(); |
| depth = depth.append(TypePathEntry.ARRAY); |
| while (arType.elemtype.hasTag(TypeTag.ARRAY)) { |
| if (arType.elemtype.isAnnotated()) { |
| Type.AnnotatedType aelemtype = (Type.AnnotatedType) arType.elemtype; |
| Type.AnnotatedType newAT = new Type.AnnotatedType(aelemtype.underlyingType); |
| tomodify.elemtype = newAT; |
| newAT.typeAnnotations = aelemtype.typeAnnotations; |
| arType = (Type.ArrayType) aelemtype.underlyingType; |
| tomodify = new Type.ArrayType(null, arType.tsym); |
| newAT.underlyingType = tomodify; |
| } else { |
| arType = (Type.ArrayType) arType.elemtype; |
| tomodify.elemtype = new Type.ArrayType(null, arType.tsym); |
| tomodify = (Type.ArrayType) tomodify.elemtype; |
| } |
| arTree = arrayTypeTree(arTree.elemtype); |
| depth = depth.append(TypePathEntry.ARRAY); |
| } |
| Type arelemType = typeWithAnnotations(arTree.elemtype, arType.elemtype, annotations, log); |
| tomodify.elemtype = arelemType; |
| { |
| // All annotations share the same position; modify the first one. |
| Attribute.TypeCompound a = annotations.get(0); |
| TypeAnnotationPosition p = a.position; |
| p.location = p.location.prependList(depth.toList()); |
| } |
| typetree.type = toreturn; |
| return toreturn; |
| } else if (type.hasTag(TypeTag.TYPEVAR)) { |
| // Nothing to do for type variables. |
| return type; |
| } else if (type.getKind() == TypeKind.UNION) { |
| // There is a TypeKind, but no TypeTag. |
| JCTypeUnion tutree = (JCTypeUnion) typetree; |
| JCExpression fst = tutree.alternatives.get(0); |
| Type res = typeWithAnnotations(fst, fst.type, annotations, log); |
| fst.type = res; |
| // TODO: do we want to set res as first element in uct.alternatives? |
| // UnionClassType uct = (com.sun.tools.javac.code.Type.UnionClassType)type; |
| // Return the un-annotated union-type. |
| return type; |
| } else { |
| Type enclTy = type; |
| Element enclEl = type.asElement(); |
| JCTree enclTr = typetree; |
| |
| while (enclEl != null && |
| enclEl.getKind() != ElementKind.PACKAGE && |
| enclTy != null && |
| enclTy.getKind() != TypeKind.NONE && |
| enclTy.getKind() != TypeKind.ERROR && |
| (enclTr.getKind() == JCTree.Kind.MEMBER_SELECT || |
| enclTr.getKind() == JCTree.Kind.PARAMETERIZED_TYPE || |
| enclTr.getKind() == JCTree.Kind.ANNOTATED_TYPE)) { |
| // Iterate also over the type tree, not just the type: the type is already |
| // completely resolved and we cannot distinguish where the annotation |
| // belongs for a nested type. |
| if (enclTr.getKind() == JCTree.Kind.MEMBER_SELECT) { |
| // only change encl in this case. |
| enclTy = enclTy.getEnclosingType(); |
| enclEl = enclEl.getEnclosingElement(); |
| enclTr = ((JCFieldAccess)enclTr).getExpression(); |
| } else if (enclTr.getKind() == JCTree.Kind.PARAMETERIZED_TYPE) { |
| enclTr = ((JCTypeApply)enclTr).getType(); |
| } else { |
| // only other option because of while condition |
| enclTr = ((JCAnnotatedType)enclTr).getUnderlyingType(); |
| } |
| } |
| |
| /** We are trying to annotate some enclosing type, |
| * but nothing more exists. |
| */ |
| if (enclTy != null && |
| enclTy.getKind() == TypeKind.NONE && |
| (enclTr.getKind() == JCTree.Kind.IDENTIFIER || |
| enclTr.getKind() == JCTree.Kind.MEMBER_SELECT || |
| enclTr.getKind() == JCTree.Kind.PARAMETERIZED_TYPE || |
| enclTr.getKind() == JCTree.Kind.ANNOTATED_TYPE)) { |
| // TODO: also if it's "java. @A lang.Object", that is, |
| // if it's on a package? |
| log.error(enclTr.pos(), "cant.annotate.nested.type", enclTr.toString()); |
| return type; |
| } |
| |
| // At this point we have visited the part of the nested |
| // type that is written in the source code. |
| // Now count from here to the actual top-level class to determine |
| // the correct nesting. |
| |
| // The genericLocation for the annotation. |
| ListBuffer<TypePathEntry> depth = ListBuffer.lb(); |
| |
| Type topTy = enclTy; |
| while (enclEl != null && |
| enclEl.getKind() != ElementKind.PACKAGE && |
| topTy != null && |
| topTy.getKind() != TypeKind.NONE && |
| topTy.getKind() != TypeKind.ERROR) { |
| topTy = topTy.getEnclosingType(); |
| enclEl = enclEl.getEnclosingElement(); |
| |
| if (topTy != null && topTy.getKind() != TypeKind.NONE) { |
| // Only count enclosing types. |
| depth = depth.append(TypePathEntry.INNER_TYPE); |
| } |
| } |
| |
| if (depth.nonEmpty()) { |
| // Only need to change the annotation positions |
| // if they are on an enclosed type. |
| // All annotations share the same position; modify the first one. |
| Attribute.TypeCompound a = annotations.get(0); |
| TypeAnnotationPosition p = a.position; |
| p.location = p.location.appendList(depth.toList()); |
| } |
| |
| Type ret = typeWithAnnotations(type, enclTy, annotations); |
| typetree.type = ret; |
| return ret; |
| } |
| } |
| |
| private static JCArrayTypeTree arrayTypeTree(JCTree typetree) { |
| if (typetree.getKind() == JCTree.Kind.ARRAY_TYPE) { |
| return (JCArrayTypeTree) typetree; |
| } else if (typetree.getKind() == JCTree.Kind.ANNOTATED_TYPE) { |
| return (JCArrayTypeTree) ((JCAnnotatedType)typetree).underlyingType; |
| } else { |
| Assert.error("Could not determine array type from type tree: " + typetree); |
| return null; |
| } |
| } |
| |
| /** Return a copy of the first type that only differs by |
| * inserting the annotations to the left-most/inner-most type |
| * or the type given by stopAt. |
| * |
| * We need the stopAt parameter to know where on a type to |
| * put the annotations. |
| * If we have nested classes Outer > Middle > Inner, and we |
| * have the source type "@A Middle.Inner", we will invoke |
| * this method with type = Outer.Middle.Inner, |
| * stopAt = Middle.Inner, and annotations = @A. |
| * |
| * @param type The type to copy. |
| * @param stopAt The type to stop at. |
| * @param annotations The annotations to insert. |
| * @return A copy of type that contains the annotations. |
| */ |
| private static Type typeWithAnnotations(final Type type, |
| final Type stopAt, |
| final List<Attribute.TypeCompound> annotations) { |
| Visitor<Type, List<TypeCompound>> visitor = |
| new Type.Visitor<Type, List<Attribute.TypeCompound>>() { |
| @Override |
| public Type visitClassType(ClassType t, List<TypeCompound> s) { |
| // assert that t.constValue() == null? |
| if (t == stopAt || |
| t.getEnclosingType() == Type.noType) { |
| return new AnnotatedType(s, t); |
| } else { |
| ClassType ret = new ClassType(t.getEnclosingType().accept(this, s), |
| t.typarams_field, t.tsym); |
| ret.all_interfaces_field = t.all_interfaces_field; |
| ret.allparams_field = t.allparams_field; |
| ret.interfaces_field = t.interfaces_field; |
| ret.rank_field = t.rank_field; |
| ret.supertype_field = t.supertype_field; |
| return ret; |
| } |
| } |
| |
| @Override |
| public Type visitAnnotatedType(AnnotatedType t, List<TypeCompound> s) { |
| return new AnnotatedType(t.typeAnnotations, t.underlyingType.accept(this, s)); |
| } |
| |
| @Override |
| public Type visitWildcardType(WildcardType t, List<TypeCompound> s) { |
| return new AnnotatedType(s, t); |
| } |
| |
| @Override |
| public Type visitArrayType(ArrayType t, List<TypeCompound> s) { |
| ArrayType ret = new ArrayType(t.elemtype.accept(this, s), t.tsym); |
| return ret; |
| } |
| |
| @Override |
| public Type visitMethodType(MethodType t, List<TypeCompound> s) { |
| // Impossible? |
| return t; |
| } |
| |
| @Override |
| public Type visitPackageType(PackageType t, List<TypeCompound> s) { |
| // Impossible? |
| return t; |
| } |
| |
| @Override |
| public Type visitTypeVar(TypeVar t, List<TypeCompound> s) { |
| return new AnnotatedType(s, t); |
| } |
| |
| @Override |
| public Type visitCapturedType(CapturedType t, List<TypeCompound> s) { |
| return new AnnotatedType(s, t); |
| } |
| |
| @Override |
| public Type visitForAll(ForAll t, List<TypeCompound> s) { |
| // Impossible? |
| return t; |
| } |
| |
| @Override |
| public Type visitUndetVar(UndetVar t, List<TypeCompound> s) { |
| // Impossible? |
| return t; |
| } |
| |
| @Override |
| public Type visitErrorType(ErrorType t, List<TypeCompound> s) { |
| return new AnnotatedType(s, t); |
| } |
| |
| @Override |
| public Type visitType(Type t, List<TypeCompound> s) { |
| return new AnnotatedType(s, t); |
| } |
| }; |
| |
| return type.accept(visitor, annotations); |
| } |
| |
| private static Attribute.TypeCompound toTypeCompound(Attribute.Compound a, TypeAnnotationPosition p) { |
| // It is safe to alias the position. |
| return new Attribute.TypeCompound(a, p); |
| } |
| |
| |
| /* This is the beginning of the second part of organizing |
| * type annotations: determine the type annotation positions. |
| */ |
| |
| private void resolveFrame(JCTree tree, JCTree frame, |
| List<JCTree> path, TypeAnnotationPosition p) { |
| /* |
| System.out.println("Resolving tree: " + tree + " kind: " + tree.getKind()); |
| System.out.println(" Framing tree: " + frame + " kind: " + frame.getKind()); |
| */ |
| |
| // Note that p.offset is set in |
| // com.sun.tools.javac.jvm.Gen.setTypeAnnotationPositions(int) |
| |
| switch (frame.getKind()) { |
| case TYPE_CAST: |
| JCTypeCast frameTC = (JCTypeCast) frame; |
| p.type = TargetType.CAST; |
| if (frameTC.clazz.hasTag(Tag.TYPEINTERSECTION)) { |
| // This case was already handled by INTERSECTION_TYPE |
| } else { |
| p.type_index = 0; |
| } |
| p.pos = frame.pos; |
| return; |
| |
| case INSTANCE_OF: |
| p.type = TargetType.INSTANCEOF; |
| p.pos = frame.pos; |
| return; |
| |
| case NEW_CLASS: |
| JCNewClass frameNewClass = (JCNewClass) frame; |
| if (frameNewClass.def != null) { |
| // Special handling for anonymous class instantiations |
| JCClassDecl frameClassDecl = frameNewClass.def; |
| if (frameClassDecl.extending == tree) { |
| p.type = TargetType.CLASS_EXTENDS; |
| p.type_index = -1; |
| } else if (frameClassDecl.implementing.contains(tree)) { |
| p.type = TargetType.CLASS_EXTENDS; |
| p.type_index = frameClassDecl.implementing.indexOf(tree); |
| } else { |
| // In contrast to CLASS below, typarams cannot occur here. |
| Assert.error("Could not determine position of tree " + tree + |
| " within frame " + frame); |
| } |
| } else if (frameNewClass.typeargs.contains(tree)) { |
| p.type = TargetType.CONSTRUCTOR_INVOCATION_TYPE_ARGUMENT; |
| p.type_index = frameNewClass.typeargs.indexOf(tree); |
| } else { |
| p.type = TargetType.NEW; |
| } |
| p.pos = frame.pos; |
| return; |
| |
| case NEW_ARRAY: |
| p.type = TargetType.NEW; |
| p.pos = frame.pos; |
| return; |
| |
| case ANNOTATION_TYPE: |
| case CLASS: |
| case ENUM: |
| case INTERFACE: |
| p.pos = frame.pos; |
| if (((JCClassDecl)frame).extending == tree) { |
| p.type = TargetType.CLASS_EXTENDS; |
| p.type_index = -1; |
| } else if (((JCClassDecl)frame).implementing.contains(tree)) { |
| p.type = TargetType.CLASS_EXTENDS; |
| p.type_index = ((JCClassDecl)frame).implementing.indexOf(tree); |
| } else if (((JCClassDecl)frame).typarams.contains(tree)) { |
| p.type = TargetType.CLASS_TYPE_PARAMETER; |
| p.parameter_index = ((JCClassDecl)frame).typarams.indexOf(tree); |
| } else { |
| Assert.error("Could not determine position of tree " + tree + |
| " within frame " + frame); |
| } |
| return; |
| |
| case METHOD: { |
| JCMethodDecl frameMethod = (JCMethodDecl) frame; |
| p.pos = frame.pos; |
| if (frameMethod.thrown.contains(tree)) { |
| p.type = TargetType.THROWS; |
| p.type_index = frameMethod.thrown.indexOf(tree); |
| } else if (frameMethod.restype == tree) { |
| p.type = TargetType.METHOD_RETURN; |
| } else if (frameMethod.typarams.contains(tree)) { |
| p.type = TargetType.METHOD_TYPE_PARAMETER; |
| p.parameter_index = frameMethod.typarams.indexOf(tree); |
| } else { |
| Assert.error("Could not determine position of tree " + tree + |
| " within frame " + frame); |
| } |
| return; |
| } |
| |
| case PARAMETERIZED_TYPE: { |
| List<JCTree> newPath = path.tail; |
| |
| if (((JCTypeApply)frame).clazz == tree) { |
| // generic: RAW; noop |
| } else if (((JCTypeApply)frame).arguments.contains(tree)) { |
| JCTypeApply taframe = (JCTypeApply) frame; |
| int arg = taframe.arguments.indexOf(tree); |
| p.location = p.location.prepend(new TypePathEntry(TypePathEntryKind.TYPE_ARGUMENT, arg)); |
| |
| Type typeToUse; |
| if (newPath.tail != null && newPath.tail.head.hasTag(Tag.NEWCLASS)) { |
| // If we are within an anonymous class instantiation, use its type, |
| // because it contains a correctly nested type. |
| typeToUse = newPath.tail.head.type; |
| } else { |
| typeToUse = taframe.type; |
| } |
| |
| locateNestedTypes(typeToUse, p); |
| } else { |
| Assert.error("Could not determine type argument position of tree " + tree + |
| " within frame " + frame); |
| } |
| |
| resolveFrame(newPath.head, newPath.tail.head, newPath, p); |
| return; |
| } |
| |
| case MEMBER_REFERENCE: { |
| JCMemberReference mrframe = (JCMemberReference) frame; |
| |
| if (mrframe.expr == tree) { |
| switch (mrframe.mode) { |
| case INVOKE: |
| p.type = TargetType.METHOD_REFERENCE; |
| break; |
| case NEW: |
| p.type = TargetType.CONSTRUCTOR_REFERENCE; |
| break; |
| default: |
| Assert.error("Unknown method reference mode " + mrframe.mode + |
| " for tree " + tree + " within frame " + frame); |
| } |
| p.pos = frame.pos; |
| } else if (mrframe.typeargs != null && |
| mrframe.typeargs.contains(tree)) { |
| int arg = mrframe.typeargs.indexOf(tree); |
| p.type_index = arg; |
| switch (mrframe.mode) { |
| case INVOKE: |
| p.type = TargetType.METHOD_REFERENCE_TYPE_ARGUMENT; |
| break; |
| case NEW: |
| p.type = TargetType.CONSTRUCTOR_REFERENCE_TYPE_ARGUMENT; |
| break; |
| default: |
| Assert.error("Unknown method reference mode " + mrframe.mode + |
| " for tree " + tree + " within frame " + frame); |
| } |
| p.pos = frame.pos; |
| } else { |
| Assert.error("Could not determine type argument position of tree " + tree + |
| " within frame " + frame); |
| } |
| return; |
| } |
| |
| case ARRAY_TYPE: { |
| ListBuffer<TypePathEntry> index = ListBuffer.lb(); |
| index = index.append(TypePathEntry.ARRAY); |
| List<JCTree> newPath = path.tail; |
| while (true) { |
| JCTree npHead = newPath.tail.head; |
| if (npHead.hasTag(JCTree.Tag.TYPEARRAY)) { |
| newPath = newPath.tail; |
| index = index.append(TypePathEntry.ARRAY); |
| } else if (npHead.hasTag(JCTree.Tag.ANNOTATED_TYPE)) { |
| newPath = newPath.tail; |
| } else { |
| break; |
| } |
| } |
| p.location = p.location.prependList(index.toList()); |
| resolveFrame(newPath.head, newPath.tail.head, newPath, p); |
| return; |
| } |
| |
| case TYPE_PARAMETER: |
| if (path.tail.tail.head.hasTag(JCTree.Tag.CLASSDEF)) { |
| JCClassDecl clazz = (JCClassDecl)path.tail.tail.head; |
| p.type = TargetType.CLASS_TYPE_PARAMETER_BOUND; |
| p.parameter_index = clazz.typarams.indexOf(path.tail.head); |
| p.bound_index = ((JCTypeParameter)frame).bounds.indexOf(tree); |
| if (((JCTypeParameter)frame).bounds.get(0).type.isInterface()) { |
| // Account for an implicit Object as bound 0 |
| p.bound_index += 1; |
| } |
| } else if (path.tail.tail.head.hasTag(JCTree.Tag.METHODDEF)) { |
| JCMethodDecl method = (JCMethodDecl)path.tail.tail.head; |
| p.type = TargetType.METHOD_TYPE_PARAMETER_BOUND; |
| p.parameter_index = method.typarams.indexOf(path.tail.head); |
| p.bound_index = ((JCTypeParameter)frame).bounds.indexOf(tree); |
| if (((JCTypeParameter)frame).bounds.get(0).type.isInterface()) { |
| // Account for an implicit Object as bound 0 |
| p.bound_index += 1; |
| } |
| } else { |
| Assert.error("Could not determine position of tree " + tree + |
| " within frame " + frame); |
| } |
| p.pos = frame.pos; |
| return; |
| |
| case VARIABLE: |
| VarSymbol v = ((JCVariableDecl)frame).sym; |
| p.pos = frame.pos; |
| switch (v.getKind()) { |
| case LOCAL_VARIABLE: |
| p.type = TargetType.LOCAL_VARIABLE; |
| break; |
| case FIELD: |
| p.type = TargetType.FIELD; |
| break; |
| case PARAMETER: |
| if (v.getQualifiedName().equals(names._this)) { |
| // TODO: Intro a separate ElementKind? |
| p.type = TargetType.METHOD_RECEIVER; |
| } else { |
| p.type = TargetType.METHOD_FORMAL_PARAMETER; |
| p.parameter_index = methodParamIndex(path, frame); |
| } |
| break; |
| case EXCEPTION_PARAMETER: |
| p.type = TargetType.EXCEPTION_PARAMETER; |
| break; |
| case RESOURCE_VARIABLE: |
| p.type = TargetType.RESOURCE_VARIABLE; |
| break; |
| default: |
| Assert.error("Found unexpected type annotation for variable: " + v + " with kind: " + v.getKind()); |
| } |
| if (v.getKind() != ElementKind.FIELD) { |
| v.owner.appendUniqueTypeAttributes(v.getRawTypeAttributes()); |
| } |
| return; |
| |
| case ANNOTATED_TYPE: { |
| if (frame == tree) { |
| // This is only true for the first annotated type we see. |
| // For any other annotated types along the path, we do |
| // not care about inner types. |
| JCAnnotatedType atypetree = (JCAnnotatedType) frame; |
| final Type utype = atypetree.underlyingType.type; |
| if (utype == null) { |
| // This might happen during DeferredAttr; |
| // we will be back later. |
| return; |
| } |
| Symbol tsym = utype.tsym; |
| if (tsym.getKind().equals(ElementKind.TYPE_PARAMETER) || |
| utype.getKind().equals(TypeKind.WILDCARD) || |
| utype.getKind().equals(TypeKind.ARRAY)) { |
| // Type parameters, wildcards, and arrays have the declaring |
| // class/method as enclosing elements. |
| // There is actually nothing to do for them. |
| } else { |
| locateNestedTypes(utype, p); |
| } |
| } |
| List<JCTree> newPath = path.tail; |
| resolveFrame(newPath.head, newPath.tail.head, newPath, p); |
| return; |
| } |
| |
| case UNION_TYPE: { |
| List<JCTree> newPath = path.tail; |
| resolveFrame(newPath.head, newPath.tail.head, newPath, p); |
| return; |
| } |
| |
| case INTERSECTION_TYPE: { |
| JCTypeIntersection isect = (JCTypeIntersection)frame; |
| p.type_index = isect.bounds.indexOf(tree); |
| List<JCTree> newPath = path.tail; |
| resolveFrame(newPath.head, newPath.tail.head, newPath, p); |
| return; |
| } |
| |
| case METHOD_INVOCATION: { |
| JCMethodInvocation invocation = (JCMethodInvocation)frame; |
| if (!invocation.typeargs.contains(tree)) { |
| Assert.error("{" + tree + "} is not an argument in the invocation: " + invocation); |
| } |
| MethodSymbol exsym = (MethodSymbol) TreeInfo.symbol(invocation.getMethodSelect()); |
| if (exsym == null) { |
| Assert.error("could not determine symbol for {" + invocation + "}"); |
| } else if (exsym.isConstructor()) { |
| p.type = TargetType.CONSTRUCTOR_INVOCATION_TYPE_ARGUMENT; |
| } else { |
| p.type = TargetType.METHOD_INVOCATION_TYPE_ARGUMENT; |
| } |
| p.pos = invocation.pos; |
| p.type_index = invocation.typeargs.indexOf(tree); |
| return; |
| } |
| |
| case EXTENDS_WILDCARD: |
| case SUPER_WILDCARD: { |
| // Annotations in wildcard bounds |
| p.location = p.location.prepend(TypePathEntry.WILDCARD); |
| List<JCTree> newPath = path.tail; |
| resolveFrame(newPath.head, newPath.tail.head, newPath, p); |
| return; |
| } |
| |
| case MEMBER_SELECT: { |
| List<JCTree> newPath = path.tail; |
| resolveFrame(newPath.head, newPath.tail.head, newPath, p); |
| return; |
| } |
| |
| default: |
| Assert.error("Unresolved frame: " + frame + " of kind: " + frame.getKind() + |
| "\n Looking for tree: " + tree); |
| return; |
| } |
| } |
| |
| private static void locateNestedTypes(Type type, TypeAnnotationPosition p) { |
| // The number of "steps" to get from the full type to the |
| // left-most outer type. |
| ListBuffer<TypePathEntry> depth = ListBuffer.lb(); |
| |
| Type encl = type.getEnclosingType(); |
| while (encl != null && |
| encl.getKind() != TypeKind.NONE && |
| encl.getKind() != TypeKind.ERROR) { |
| depth = depth.append(TypePathEntry.INNER_TYPE); |
| encl = encl.getEnclosingType(); |
| } |
| if (depth.nonEmpty()) { |
| p.location = p.location.prependList(depth.toList()); |
| } |
| } |
| |
| private static int methodParamIndex(List<JCTree> path, JCTree param) { |
| List<JCTree> curr = path; |
| while (curr.head.getTag() != Tag.METHODDEF && |
| curr.head.getTag() != Tag.LAMBDA) { |
| curr = curr.tail; |
| } |
| if (curr.head.getTag() == Tag.METHODDEF) { |
| JCMethodDecl method = (JCMethodDecl)curr.head; |
| return method.params.indexOf(param); |
| } else if (curr.head.getTag() == Tag.LAMBDA) { |
| JCLambda lambda = (JCLambda)curr.head; |
| return lambda.params.indexOf(param); |
| } else { |
| Assert.error("methodParamIndex expected to find method or lambda for param: " + param); |
| return -1; |
| } |
| } |
| |
| // Each class (including enclosed inner classes) is visited separately. |
| // This flag is used to prevent from visiting inner classes. |
| private boolean isInClass = false; |
| |
| @Override |
| public void visitClassDef(JCClassDecl tree) { |
| if (isInClass) |
| return; |
| isInClass = true; |
| |
| if (sigOnly) { |
| scan(tree.mods); |
| scan(tree.typarams); |
| scan(tree.extending); |
| scan(tree.implementing); |
| } |
| scan(tree.defs); |
| } |
| |
| /** |
| * Resolve declaration vs. type annotations in methods and |
| * then determine the positions. |
| */ |
| @Override |
| public void visitMethodDef(final JCMethodDecl tree) { |
| if (tree.sym == null) { |
| // Something most be wrong, e.g. a class not found. |
| // Quietly ignore. (See test FailOver15.java) |
| return; |
| } |
| if (sigOnly) { |
| if (!tree.mods.annotations.isEmpty()) { |
| // Nothing to do for separateAnnotationsKinds if |
| // there are no annotations of either kind. |
| TypeAnnotationPosition pos = new TypeAnnotationPosition(); |
| pos.type = TargetType.METHOD_RETURN; |
| if (tree.sym.isConstructor()) { |
| pos.pos = tree.pos; |
| // Use null to mark that the annotations go with the symbol. |
| separateAnnotationsKinds(tree, null, tree.sym, pos); |
| } else { |
| pos.pos = tree.restype.pos; |
| separateAnnotationsKinds(tree.restype, tree.sym.type.getReturnType(), |
| tree.sym, pos); |
| } |
| } |
| if (tree.recvparam != null && tree.recvparam.sym != null && |
| !tree.recvparam.mods.annotations.isEmpty()) { |
| // Nothing to do for separateAnnotationsKinds if |
| // there are no annotations of either kind. |
| // TODO: make sure there are no declaration annotations. |
| TypeAnnotationPosition pos = new TypeAnnotationPosition(); |
| pos.type = TargetType.METHOD_RECEIVER; |
| pos.pos = tree.recvparam.vartype.pos; |
| separateAnnotationsKinds(tree.recvparam.vartype, tree.recvparam.sym.type, |
| tree.recvparam.sym, pos); |
| } |
| int i = 0; |
| for (JCVariableDecl param : tree.params) { |
| if (!param.mods.annotations.isEmpty()) { |
| // Nothing to do for separateAnnotationsKinds if |
| // there are no annotations of either kind. |
| TypeAnnotationPosition pos = new TypeAnnotationPosition(); |
| pos.type = TargetType.METHOD_FORMAL_PARAMETER; |
| pos.parameter_index = i; |
| pos.pos = param.vartype.pos; |
| separateAnnotationsKinds(param.vartype, param.sym.type, param.sym, pos); |
| } |
| ++i; |
| } |
| } |
| |
| push(tree); |
| // super.visitMethodDef(tree); |
| if (sigOnly) { |
| scan(tree.mods); |
| scan(tree.restype); |
| scan(tree.typarams); |
| scan(tree.recvparam); |
| scan(tree.params); |
| scan(tree.thrown); |
| } else { |
| scan(tree.defaultValue); |
| scan(tree.body); |
| } |
| pop(); |
| } |
| |
| /* Store a reference to the current lambda expression, to |
| * be used by all type annotations within this expression. |
| */ |
| private JCLambda currentLambda = null; |
| |
| public void visitLambda(JCLambda tree) { |
| JCLambda prevLambda = currentLambda; |
| try { |
| currentLambda = tree; |
| |
| int i = 0; |
| for (JCVariableDecl param : tree.params) { |
| if (!param.mods.annotations.isEmpty()) { |
| // Nothing to do for separateAnnotationsKinds if |
| // there are no annotations of either kind. |
| TypeAnnotationPosition pos = new TypeAnnotationPosition(); |
| pos.type = TargetType.METHOD_FORMAL_PARAMETER; |
| pos.parameter_index = i; |
| pos.pos = param.vartype.pos; |
| pos.onLambda = tree; |
| separateAnnotationsKinds(param.vartype, param.sym.type, param.sym, pos); |
| } |
| ++i; |
| } |
| |
| push(tree); |
| scan(tree.body); |
| scan(tree.params); |
| pop(); |
| } finally { |
| currentLambda = prevLambda; |
| } |
| } |
| |
| /** |
| * Resolve declaration vs. type annotations in variable declarations and |
| * then determine the positions. |
| */ |
| @Override |
| public void visitVarDef(final JCVariableDecl tree) { |
| if (tree.mods.annotations.isEmpty()) { |
| // Nothing to do for separateAnnotationsKinds if |
| // there are no annotations of either kind. |
| } else if (tree.sym == null) { |
| // Something is wrong already. Quietly ignore. |
| } else if (tree.sym.getKind() == ElementKind.PARAMETER) { |
| // Parameters are handled in visitMethodDef or visitLambda. |
| } else if (tree.sym.getKind() == ElementKind.FIELD) { |
| if (sigOnly) { |
| TypeAnnotationPosition pos = new TypeAnnotationPosition(); |
| pos.type = TargetType.FIELD; |
| pos.pos = tree.pos; |
| separateAnnotationsKinds(tree.vartype, tree.sym.type, tree.sym, pos); |
| } |
| } else if (tree.sym.getKind() == ElementKind.LOCAL_VARIABLE) { |
| TypeAnnotationPosition pos = new TypeAnnotationPosition(); |
| pos.type = TargetType.LOCAL_VARIABLE; |
| pos.pos = tree.pos; |
| pos.onLambda = currentLambda; |
| separateAnnotationsKinds(tree.vartype, tree.sym.type, tree.sym, pos); |
| } else if (tree.sym.getKind() == ElementKind.EXCEPTION_PARAMETER) { |
| TypeAnnotationPosition pos = new TypeAnnotationPosition(); |
| pos.type = TargetType.EXCEPTION_PARAMETER; |
| pos.pos = tree.pos; |
| pos.onLambda = currentLambda; |
| separateAnnotationsKinds(tree.vartype, tree.sym.type, tree.sym, pos); |
| } else if (tree.sym.getKind() == ElementKind.RESOURCE_VARIABLE) { |
| TypeAnnotationPosition pos = new TypeAnnotationPosition(); |
| pos.type = TargetType.RESOURCE_VARIABLE; |
| pos.pos = tree.pos; |
| pos.onLambda = currentLambda; |
| separateAnnotationsKinds(tree.vartype, tree.sym.type, tree.sym, pos); |
| } else if (tree.sym.getKind() == ElementKind.ENUM_CONSTANT) { |
| // No type annotations can occur here. |
| } else { |
| // There is nothing else in a variable declaration that needs separation. |
| Assert.error("Unhandled variable kind: " + tree + " of kind: " + tree.sym.getKind()); |
| } |
| |
| push(tree); |
| // super.visitVarDef(tree); |
| scan(tree.mods); |
| scan(tree.vartype); |
| if (!sigOnly) { |
| scan(tree.init); |
| } |
| pop(); |
| } |
| |
| @Override |
| public void visitBlock(JCBlock tree) { |
| // Do not descend into top-level blocks when only interested |
| // in the signature. |
| if (!sigOnly) { |
| scan(tree.stats); |
| } |
| } |
| |
| @Override |
| public void visitAnnotatedType(JCAnnotatedType tree) { |
| push(tree); |
| findPosition(tree, tree, tree.annotations); |
| pop(); |
| super.visitAnnotatedType(tree); |
| } |
| |
| @Override |
| public void visitTypeParameter(JCTypeParameter tree) { |
| findPosition(tree, peek2(), tree.annotations); |
| super.visitTypeParameter(tree); |
| } |
| |
| @Override |
| public void visitNewClass(JCNewClass tree) { |
| if (tree.def != null && |
| !tree.def.mods.annotations.isEmpty()) { |
| JCClassDecl classdecl = tree.def; |
| TypeAnnotationPosition pos = new TypeAnnotationPosition(); |
| pos.type = TargetType.CLASS_EXTENDS; |
| pos.pos = tree.pos; |
| if (classdecl.extending == tree.clazz) { |
| pos.type_index = -1; |
| } else if (classdecl.implementing.contains(tree.clazz)) { |
| pos.type_index = classdecl.implementing.indexOf(tree.clazz); |
| } else { |
| // In contrast to CLASS elsewhere, typarams cannot occur here. |
| Assert.error("Could not determine position of tree " + tree); |
| } |
| Type before = classdecl.sym.type; |
| separateAnnotationsKinds(classdecl, tree.clazz.type, classdecl.sym, pos); |
| |
| // classdecl.sym.type now contains an annotated type, which |
| // is not what we want there. |
| // TODO: should we put this type somewhere in the superclass/interface? |
| classdecl.sym.type = before; |
| } |
| |
| scan(tree.encl); |
| scan(tree.typeargs); |
| scan(tree.clazz); |
| scan(tree.args); |
| |
| // The class body will already be scanned. |
| // scan(tree.def); |
| } |
| |
| @Override |
| public void visitNewArray(JCNewArray tree) { |
| findPosition(tree, tree, tree.annotations); |
| int dimAnnosCount = tree.dimAnnotations.size(); |
| ListBuffer<TypePathEntry> depth = ListBuffer.lb(); |
| |
| // handle annotations associated with dimensions |
| for (int i = 0; i < dimAnnosCount; ++i) { |
| TypeAnnotationPosition p = new TypeAnnotationPosition(); |
| p.pos = tree.pos; |
| p.onLambda = currentLambda; |
| p.type = TargetType.NEW; |
| if (i != 0) { |
| depth = depth.append(TypePathEntry.ARRAY); |
| p.location = p.location.appendList(depth.toList()); |
| } |
| |
| setTypeAnnotationPos(tree.dimAnnotations.get(i), p); |
| } |
| |
| // handle "free" annotations |
| // int i = dimAnnosCount == 0 ? 0 : dimAnnosCount - 1; |
| // TODO: is depth.size == i here? |
| JCExpression elemType = tree.elemtype; |
| depth = depth.append(TypePathEntry.ARRAY); |
| while (elemType != null) { |
| if (elemType.hasTag(JCTree.Tag.ANNOTATED_TYPE)) { |
| JCAnnotatedType at = (JCAnnotatedType)elemType; |
| TypeAnnotationPosition p = new TypeAnnotationPosition(); |
| p.type = TargetType.NEW; |
| p.pos = tree.pos; |
| p.onLambda = currentLambda; |
| locateNestedTypes(elemType.type, p); |
| p.location = p.location.prependList(depth.toList()); |
| setTypeAnnotationPos(at.annotations, p); |
| elemType = at.underlyingType; |
| } else if (elemType.hasTag(JCTree.Tag.TYPEARRAY)) { |
| depth = depth.append(TypePathEntry.ARRAY); |
| elemType = ((JCArrayTypeTree)elemType).elemtype; |
| } else if (elemType.hasTag(JCTree.Tag.SELECT)) { |
| elemType = ((JCFieldAccess)elemType).selected; |
| } else { |
| break; |
| } |
| } |
| scan(tree.elems); |
| } |
| |
| private void findPosition(JCTree tree, JCTree frame, List<JCAnnotation> annotations) { |
| if (!annotations.isEmpty()) { |
| /* |
| System.out.println("Finding pos for: " + annotations); |
| System.out.println(" tree: " + tree + " kind: " + tree.getKind()); |
| System.out.println(" frame: " + frame + " kind: " + frame.getKind()); |
| */ |
| TypeAnnotationPosition p = new TypeAnnotationPosition(); |
| p.onLambda = currentLambda; |
| resolveFrame(tree, frame, frames.toList(), p); |
| setTypeAnnotationPos(annotations, p); |
| } |
| } |
| |
| private static void setTypeAnnotationPos(List<JCAnnotation> annotations, |
| TypeAnnotationPosition position) { |
| for (JCAnnotation anno : annotations) { |
| // attribute might be null during DeferredAttr; |
| // we will be back later. |
| if (anno.attribute != null) { |
| ((Attribute.TypeCompound) anno.attribute).position = position; |
| } |
| } |
| } |
| |
| @Override |
| public String toString() { |
| return super.toString() + ": sigOnly: " + sigOnly; |
| } |
| } |
| } |