示例#1
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 /**
  * Returns the type of an element when that element is viewed as a member of, or otherwise
  * directly contained by, a given type. For example, when viewed as a member of the parameterized
  * type {@code Set<String>}, the {@code Set.add} method is an {@code ExecutableType} whose
  * parameter is of type {@code String}.
  *
  * @param containing the containing type
  * @param element the element
  * @return the type of the element as viewed from the containing type
  * @throws IllegalArgumentException if the element is not a valid one for the given type
  */
 public TypeMirror asMemberOf(DeclaredType containing, Element element) {
   Type site = (Type) containing;
   Symbol sym = (Symbol) element;
   if (types.asSuper(site, sym.getEnclosingElement()) == null)
     throw new IllegalArgumentException(sym + "@" + site);
   return types.memberType(site, sym);
 }
示例#2
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 public List<Type> directSupertypes(TypeMirror t) {
   validateTypeNotIn(t, EXEC_OR_PKG);
   Type type = (Type) t;
   Type sup = types.supertype(type);
   return (sup == Type.noType || sup == type || sup == null)
       ? types.interfaces(type)
       : types.interfaces(type).prepend(sup);
 }
示例#3
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 public PrimitiveType unboxedType(TypeMirror t) {
   if (t.getKind() != TypeKind.DECLARED) throw new IllegalArgumentException(t.toString());
   Type unboxed = types.unboxedType((Type) t);
   if (!unboxed.isPrimitive()) // only true primitives, not void
   throw new IllegalArgumentException(t.toString());
   return unboxed;
 }
 protected Annotate(Context context) {
   context.put(annotateKey, this);
   attr = Attr.instance(context);
   make = TreeMaker.instance(context);
   log = Log.instance(context);
   syms = Symtab.instance(context);
   names = Names.instance(context);
   rs = Resolve.instance(context);
   types = Types.instance(context);
   cfolder = ConstFold.instance(context);
   chk = Check.instance(context);
 }
示例#5
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  protected Enter(Context context) {
    context.put(enterKey, this);

    log = Log.instance(context);
    reader = ClassReader.instance(context);
    make = TreeMaker.instance(context);
    syms = Symtab.instance(context);
    chk = Check.instance(context);
    memberEnter = MemberEnter.instance(context);
    types = Types.instance(context);
    annotate = Annotate.instance(context);
    lint = Lint.instance(context);

    predefClassDef =
        make.ClassDef(make.Modifiers(PUBLIC), syms.predefClass.name, null, null, null, null);
    predefClassDef.sym = syms.predefClass;
    todo = Todo.instance(context);
    fileManager = context.get(JavaFileManager.class);
  }
示例#6
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  public void visitClassDef(JCClassDecl tree) {
    Symbol owner = env.info.scope.owner;
    Scope enclScope = enterScope(env);
    ClassSymbol c;
    if (owner.kind == PCK) {
      // We are seeing a toplevel class.
      PackageSymbol packge = (PackageSymbol) owner;
      for (Symbol q = packge; q != null && q.kind == PCK; q = q.owner) q.flags_field |= EXISTS;
      c = reader.enterClass(tree.name, packge);
      packge.members().enterIfAbsent(c);
      if ((tree.mods.flags & PUBLIC) != 0 && !classNameMatchesFileName(c, env)) {
        log.error(tree.pos(), "class.public.should.be.in.file", tree.name);
      }
    } else {
      if (!tree.name.isEmpty() && !chk.checkUniqueClassName(tree.pos(), tree.name, enclScope)) {
        result = null;
        return;
      }
      if (owner.kind == TYP) {
        // We are seeing a member class.
        c = reader.enterClass(tree.name, (TypeSymbol) owner);
        if ((owner.flags_field & INTERFACE) != 0) {
          tree.mods.flags |= PUBLIC | STATIC;
        }
      } else {
        // We are seeing a local class.
        c = reader.defineClass(tree.name, owner);
        c.flatname = chk.localClassName(c);
        if (!c.name.isEmpty()) chk.checkTransparentClass(tree.pos(), c, env.info.scope);
      }
    }
    tree.sym = c;

    // Enter class into `compiled' table and enclosing scope.
    if (chk.compiled.get(c.flatname) != null) {
      duplicateClass(tree.pos(), c);
      result = types.createErrorType(tree.name, (TypeSymbol) owner, Type.noType);
      tree.sym = (ClassSymbol) result.tsym;
      return;
    }
    chk.compiled.put(c.flatname, c);
    enclScope.enter(c);

    // Set up an environment for class block and store in `typeEnvs'
    // table, to be retrieved later in memberEnter and attribution.
    Env<AttrContext> localEnv = classEnv(tree, env);
    typeEnvs.put(c, localEnv);

    // Fill out class fields.
    c.completer = memberEnter;
    c.flags_field = chk.checkFlags(tree.pos(), tree.mods.flags, c, tree);
    c.sourcefile = env.toplevel.sourcefile;
    c.members_field = new Scope(c);

    ClassType ct = (ClassType) c.type;
    if (owner.kind != PCK && (c.flags_field & STATIC) == 0) {
      // We are seeing a local or inner class.
      // Set outer_field of this class to closest enclosing class
      // which contains this class in a non-static context
      // (its "enclosing instance class"), provided such a class exists.
      Symbol owner1 = owner;
      while ((owner1.kind & (VAR | MTH)) != 0 && (owner1.flags_field & STATIC) == 0) {
        owner1 = owner1.owner;
      }
      if (owner1.kind == TYP) {
        ct.setEnclosingType(owner1.type);
      }
    }

    // Enter type parameters.
    ct.typarams_field = classEnter(tree.typarams, localEnv);

    // Add non-local class to uncompleted, to make sure it will be
    // completed later.
    if (!c.isLocal() && uncompleted != null) uncompleted.append(c);
    //      System.err.println("entering " + c.fullname + " in " + c.owner);//DEBUG

    // Recursively enter all member classes.
    classEnter(tree.defs, localEnv);

    result = c.type;
  }
 Attribute enterAttributeValue(Type expected, JCExpression tree, Env<AttrContext> env) {
   // first, try completing the attribution value sym - if a completion
   // error is thrown, we should recover gracefully, and display an
   // ordinary resolution diagnostic.
   try {
     expected.tsym.complete();
   } catch (CompletionFailure e) {
     log.error(tree.pos(), "cant.resolve", Kinds.kindName(e.sym), e.sym);
     return new Attribute.Error(expected);
   }
   if (expected.isPrimitive() || types.isSameType(expected, syms.stringType)) {
     Type result = attr.attribExpr(tree, env, expected);
     if (result.isErroneous()) return new Attribute.Error(expected);
     if (result.constValue() == null) {
       log.error(tree.pos(), "attribute.value.must.be.constant");
       return new Attribute.Error(expected);
     }
     result = cfolder.coerce(result, expected);
     return new Attribute.Constant(expected, result.constValue());
   }
   if (expected.tsym == syms.classType.tsym) {
     Type result = attr.attribExpr(tree, env, expected);
     if (result.isErroneous()) return new Attribute.Error(expected);
     if (TreeInfo.name(tree) != names._class) {
       log.error(tree.pos(), "annotation.value.must.be.class.literal");
       return new Attribute.Error(expected);
     }
     return new Attribute.Class(types, (((JCFieldAccess) tree).selected).type);
   }
   if ((expected.tsym.flags() & Flags.ANNOTATION) != 0
       || types.isSameType(expected, syms.annotationType)) {
     if (tree.getTag() != JCTree.ANNOTATION) {
       log.error(tree.pos(), "annotation.value.must.be.annotation");
       expected = syms.errorType;
     }
     return enterAnnotation((JCAnnotation) tree, expected, env);
   }
   if (expected.tag == TypeTags.ARRAY) { // should really be isArray()
     if (tree.getTag() != JCTree.NEWARRAY) {
       tree = make.at(tree.pos).NewArray(null, List.<JCExpression>nil(), List.of(tree));
     }
     JCNewArray na = (JCNewArray) tree;
     if (na.elemtype != null) {
       log.error(na.elemtype.pos(), "new.not.allowed.in.annotation");
       return new Attribute.Error(expected);
     }
     ListBuffer<Attribute> buf = new ListBuffer<Attribute>();
     for (List<JCExpression> l = na.elems; l.nonEmpty(); l = l.tail) {
       buf.append(enterAttributeValue(types.elemtype(expected), l.head, env));
     }
     na.type = expected;
     return new Attribute.Array(expected, buf.toArray(new Attribute[buf.length()]));
   }
   if (expected.tag == TypeTags.CLASS && (expected.tsym.flags() & Flags.ENUM) != 0) {
     attr.attribExpr(tree, env, expected);
     Symbol sym = TreeInfo.symbol(tree);
     if (sym == null
         || TreeInfo.nonstaticSelect(tree)
         || sym.kind != Kinds.VAR
         || (sym.flags() & Flags.ENUM) == 0) {
       log.error(tree.pos(), "enum.annotation.must.be.enum.constant");
       return new Attribute.Error(expected);
     }
     VarSymbol enumerator = (VarSymbol) sym;
     return new Attribute.Enum(expected, enumerator);
   }
   if (!expected.isErroneous()) log.error(tree.pos(), "annotation.value.not.allowable.type");
   return new Attribute.Error(attr.attribExpr(tree, env, expected));
 }
示例#8
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 public boolean contains(TypeMirror t1, TypeMirror t2) {
   validateTypeNotIn(t1, EXEC_OR_PKG);
   validateTypeNotIn(t2, EXEC_OR_PKG);
   return types.containsType((Type) t1, (Type) t2);
 }
示例#9
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 public boolean isAssignable(TypeMirror t1, TypeMirror t2) {
   validateTypeNotIn(t1, EXEC_OR_PKG);
   validateTypeNotIn(t2, EXEC_OR_PKG);
   return types.isAssignable((Type) t1, (Type) t2);
 }
示例#10
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 public boolean isSameType(TypeMirror t1, TypeMirror t2) {
   return types.isSameType((Type) t1, (Type) t2);
 }
示例#11
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 /**
  * Use a new context. May be called from outside to update internal state for a new
  * annotation-processing round.
  */
 public void setContext(Context context) {
   context.put(JavacTypes.class, this);
   syms = Symtab.instance(context);
   types = Types.instance(context);
 }
示例#12
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 public TypeMirror capture(TypeMirror t) {
   validateTypeNotIn(t, EXEC_OR_PKG);
   return types.capture((Type) t);
 }
示例#13
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 public TypeElement boxedClass(PrimitiveType p) {
   return types.boxedClass((Type) p);
 }
示例#14
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 public TypeMirror erasure(TypeMirror t) {
   if (t.getKind() == TypeKind.PACKAGE) throw new IllegalArgumentException(t.toString());
   return types.erasure((Type) t);
 }
示例#15
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 public boolean isSubsignature(ExecutableType m1, ExecutableType m2) {
   return types.isSubSignature((Type) m1, (Type) m2);
 }