Package com.sun.tools.javac.model

Source Code of com.sun.tools.javac.model.Vis

/*
* @(#)JavacElements.java  1.15 07/03/21
*
* Copyright (c) 2007 Sun Microsystems, Inc.  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.  Sun designates this
* particular file as subject to the "Classpath" exception as provided
* by Sun 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 Sun Microsystems, Inc., 4150 Network Circle, Santa Clara,
* CA 95054 USA or visit www.sun.com if you need additional information or
* have any questions.
*/

package com.sun.tools.javac.model;

import java.lang.annotation.Annotation;
import java.lang.annotation.Inherited;
import java.util.Map;
import javax.lang.model.SourceVersion;
import javax.lang.model.element.*;
import javax.lang.model.type.DeclaredType;
import javax.lang.model.util.Elements;
import javax.tools.JavaFileObject;
import com.sun.tools.javac.code.*;
import com.sun.tools.javac.code.Symbol.*;
import com.sun.tools.javac.code.TypeTags;
import com.sun.tools.javac.comp.AttrContext;
import com.sun.tools.javac.comp.Enter;
import com.sun.tools.javac.comp.Env;
import com.sun.tools.javac.jvm.ClassReader;
import com.sun.tools.javac.main.JavaCompiler;
import com.sun.tools.javac.processing.PrintingProcessor;
import com.sun.tools.javac.tree.JCTree;
import com.sun.tools.javac.tree.JCTree.*;
import com.sun.tools.javac.tree.TreeInfo;
import com.sun.tools.javac.tree.TreeScanner;
import com.sun.tools.javac.util.Name;
import com.sun.tools.javac.util.*;

import static javax.lang.model.util.ElementFilter.methodsIn;

/**
* Utility methods for operating on program elements.
*
* <p><b>This is NOT part of any API supported by Sun Microsystems.
* If you write code that depends on this, you do so at your own
* risk.  This code and its internal interfaces are subject to change
* or deletion without notice.</b></p>
*/
@Version("@(#)JavacElements.java  1.15 07/03/21")
public class JavacElements implements Elements {

    private JavaCompiler javaCompiler;
    private Symtab syms;
    private Name.Table names;
    private Types types;
    private Enter enter;
    private ClassReader reader;

    private static final Context.Key<JavacElements> KEY =
      new Context.Key<JavacElements>();

    public static JavacElements instance(Context context) {
  JavacElements instance = context.get(KEY);
  if (instance == null) {
      instance = new JavacElements(context);
      context.put(KEY, instance);
  }
  return instance;
    }

    /**
     * Public for use only by JavacProcessingEnvironment
     */
    // TODO JavacElements constructor should be protected
    public JavacElements(Context context) {
  setContext(context);
    }

    /**
     * Use a new context.  May be called from outside to update
     * internal state for a new annotation-processing round.
     * This instance is *not* then registered with the new context.
     */
    public void setContext(Context context) {
  javaCompiler = JavaCompiler.instance(context);
        syms = Symtab.instance(context);
        names = Name.Table.instance(context);
  types = Types.instance(context);
  enter = Enter.instance(context);
        reader = ClassReader.instance(context);
    }


    /**
     * An internal-use utility that creates a reified annotation.
     */
    public static <A extends Annotation> A getAnnotation(Symbol annotated,
               Class<A> annoType) {
        if (!annoType.isAnnotation())
            throw new IllegalArgumentException("Not an annotation type: "
                                               + annoType);
        String name = annoType.getName();
        for (Attribute.Compound anno : annotated.getAnnotationMirrors())
            if (name.equals(anno.type.tsym.flatName().toString()))
                return AnnotationProxyMaker.generateAnnotation(anno, annoType);
        return null;
    }
   
    /**
     * An internal-use utility that creates a reified annotation.
     * This overloaded version take annotation inheritance into account.
     */
    public static <A extends Annotation> A getAnnotation(ClassSymbol annotated,
                                                         Class<A> annoType) {
        boolean inherited = annoType.isAnnotationPresent(Inherited.class);
        A result = null;
        while (annotated.name != annotated.name.table.java_lang_Object) {
            result = getAnnotation((Symbol)annotated, annoType);
            if (result != null || !inherited)
                break;
            Type sup = annotated.getSuperclass();
            if (sup.tag != TypeTags.CLASS || sup.isErroneous())
                break;
            annotated = (ClassSymbol) sup.tsym;
        }
        return result;
    }


    public PackageSymbol getPackageElement(CharSequence name) {
  String strName = name.toString();
  if (strName.equals(""))
      return syms.unnamedPackage;
  return SourceVersion.isName(strName)
      ? nameToSymbol(strName, PackageSymbol.class)
      : null;
    }

    public ClassSymbol getTypeElement(CharSequence name) {
  String strName = name.toString();
  return SourceVersion.isName(strName)
      ? nameToSymbol(strName, ClassSymbol.class)
      : null;
    }

    /**
     * Returns a symbol given the type's or packages's canonical name,
     * or null if the name isn't found.
     */
    private <S extends Symbol> S nameToSymbol(String nameStr, Class<S> clazz) {
  Name name = names.fromString(nameStr);
  // First check cache.
  Symbol sym = (clazz == ClassSymbol.class)
        ? syms.classes.get(name)
        : syms.packages.get(name);

  try {
      if (sym == null)
    sym = javaCompiler.resolveIdent(nameStr);

      sym.complete();

      return (sym.kind != Kinds.ERR &&
        sym.exists() &&
        clazz.isInstance(sym) &&
        name.equals(sym.getQualifiedName()))
    ? clazz.cast(sym)
    : null;
  } catch (CompletionFailure e) {
      return null;
  }
    }

    public JavacSourcePosition getSourcePosition(Element e) {
  Pair<JCTree, JCCompilationUnit> treeTop = getTreeAndTopLevel(e);
  if (treeTop == null)
      return null;
  JCTree tree = treeTop.fst;
  JCCompilationUnit toplevel = treeTop.snd;
  JavaFileObject sourcefile = toplevel.sourcefile;
  if (sourcefile == null)
      return null;
  return new JavacSourcePosition(sourcefile, tree.pos, toplevel.lineMap);
    }

    public JavacSourcePosition getSourcePosition(Element e, AnnotationMirror a) {
  Pair<JCTree, JCCompilationUnit> treeTop = getTreeAndTopLevel(e);
  if (treeTop == null)
      return null;
  JCTree tree = treeTop.fst;
  JCCompilationUnit toplevel = treeTop.snd;
  JavaFileObject sourcefile = toplevel.sourcefile;
  if (sourcefile == null)
      return null;

  JCTree annoTree = matchAnnoToTree(a, e, tree);
  if (annoTree == null)
      return null;
  return new JavacSourcePosition(sourcefile, annoTree.pos,
               toplevel.lineMap);
    }

    public JavacSourcePosition getSourcePosition(Element e, AnnotationMirror a,
              AnnotationValue v) {
  // TODO: better accuracy in getSourcePosition(... AnnotationValue)
  return getSourcePosition(e, a);
    }

    /**
     * Returns the tree for an annotation given the annotated element
     * and the element's own tree.  Returns null if the tree cannot be found.
     */
    private JCTree matchAnnoToTree(AnnotationMirror findme,
           Element e, JCTree tree) {
  Symbol sym = cast(Symbol.class, e);
  class Vis extends JCTree.Visitor {
      List<JCAnnotation> result = null;
      public void visitTopLevel(JCCompilationUnit tree) {
    result = tree.packageAnnotations;
      }
      public void visitClassDef(JCClassDecl tree) {
    result = tree.mods.annotations;
      }
      public void visitMethodDef(JCMethodDecl tree) {
    result = tree.mods.annotations;
      }
      public void visitVarDef(JCVariableDecl tree) {
    result = tree.mods.annotations;
      }
  }
  Vis vis = new Vis();
  tree.accept(vis);
  if (vis.result == null)
      return null;
  return matchAnnoToTree(cast(Attribute.Compound.class, findme),
             sym.getAnnotationMirrors(),
             vis.result);
    }

    /**
     * Returns the tree for an annotation given a list of annotations
     * in which to search (recursively) and their corresponding trees.
     * Returns null if the tree cannot be found.
     */
    private JCTree matchAnnoToTree(Attribute.Compound findme,
           List<Attribute.Compound> annos,
           List<JCAnnotation> trees) {
  for (Attribute.Compound anno : annos) {
      for (JCAnnotation tree : trees) {
    JCTree match = matchAnnoToTree(findme, anno, tree);
    if (match != null)
        return match;
      }
  }
  return null;
    }

    /**
     * Returns the tree for an annotation given an Attribute to
     * search (recursively) and its corresponding tree.
     * Returns null if the tree cannot be found.
     */
    private JCTree matchAnnoToTree(final Attribute.Compound findme,
           final Attribute attr,
           final JCTree tree) {
  if (attr == findme)
      return (tree.type.tsym == findme.type.tsym) ? tree : null;

  class Vis implements Attribute.Visitor {
      JCTree result = null;
      public void visitConstant(Attribute.Constant value) {
      }
      public void visitClass(Attribute.Class clazz) {
      }
      public void visitCompound(Attribute.Compound anno) {
    for (Pair<MethodSymbol, Attribute> pair : anno.values) {
        JCExpression expr = scanForAssign(pair.fst, tree);
        if (expr != null) {
      JCTree match = matchAnnoToTree(findme, pair.snd, expr);
      if (match != null) {
          result = match;
          return;
      }
        }
    }
      }
      public void visitArray(Attribute.Array array) {
    if (tree.tag == JCTree.NEWARRAY &&
      types.elemtype(array.type).tsym == findme.type.tsym) {
        List<JCExpression> elems = ((JCNewArray) tree).elems;
        for (Attribute value : array.values) {
      if (value == findme) {
          result = elems.head;
          return;
      }
      elems = elems.tail;
        }
    }
      }
      public void visitEnum(Attribute.Enum e) {
      }
      public void visitError(Attribute.Error e) {
      }
  }
  Vis vis = new Vis();
  attr.accept(vis);
  return vis.result;
    }

    /**
     * Scans for a JCAssign node with a LHS matching a given
     * symbol, and returns its RHS.  Does not scan nested JCAnnotations.
     */
    private JCExpression scanForAssign(final MethodSymbol sym,
               final JCTree tree) {
  class TS extends TreeScanner {
      JCExpression result = null;
      public void scan(JCTree t) {
    if (t != null && result == null)
        t.accept(this);
      }
      public void visitAnnotation(JCAnnotation t) {
    if (t == tree)
        scan(t.args);
      }
      public void visitAssign(JCAssign t) {
    if (t.lhs.tag == JCTree.IDENT) {
        JCIdent ident = (JCIdent) t.lhs;
        if (ident.sym == sym)
      result = t.rhs;
    }
      }
  }
  TS scanner = new TS();
  tree.accept(scanner);
  return scanner.result;
    }

    /**
     * Returns the tree node corresponding to this element, or null
     * if none can be found.
     */
    public JCTree getTree(Element e) {
  Pair<JCTree, ?> treeTop = getTreeAndTopLevel(e);
  return (treeTop != null) ? treeTop.fst : null;
    }

    public String getDocComment(Element e) {
  // Our doc comment is contained in a map in our toplevel,
  // indexed by our tree.  Find our enter environment, which gives
  // us our toplevel.  It also gives us a tree that contains our
  // tree:  walk it to find our tree.  This is painful.
  Pair<JCTree, JCCompilationUnit> treeTop = getTreeAndTopLevel(e);
  if (treeTop == null)
      return null;
  JCTree tree = treeTop.fst;
  JCCompilationUnit toplevel = treeTop.snd;
        if (toplevel.docComments == null)
            return null;
  return toplevel.docComments.get(tree);
    }

    public PackageElement getPackageOf(Element e) {
  return cast(Symbol.class, e).packge();
    }

    public boolean isDeprecated(Element e) {
  Symbol sym = cast(Symbol.class, e);
  return (sym.flags() & Flags.DEPRECATED) != 0;
    }

    public Name getBinaryName(TypeElement type) {
  return cast(TypeSymbol.class, type).flatName();
    }

    public Map<MethodSymbol, Attribute> getElementValuesWithDefaults(
              AnnotationMirror a) {
  Attribute.Compound anno = cast(Attribute.Compound.class, a);
  DeclaredType annotype = a.getAnnotationType();
  Map<MethodSymbol, Attribute> valmap = anno.getElementValues();

  for (ExecutableElement ex :
     methodsIn(annotype.asElement().getEnclosedElements())) {
      MethodSymbol meth = (MethodSymbol) ex;
      Attribute defaultValue = meth.getDefaultValue();
      if (defaultValue != null && !valmap.containsKey(meth)) {
    valmap.put(meth, defaultValue);
      }
  }
  return valmap;
    }

    /**
     * {@inheritDoc}
     */
    public FilteredMemberList getAllMembers(TypeElement element) {
  Symbol sym = cast(Symbol.class, element);
  Scope scope = sym.members().dupUnshared();
  List<Type> closure = types.closure(sym.asType());
  for (Type t : closure)
      addMembers(scope, t);
  return new FilteredMemberList(scope);
    }
    // where
  private void addMembers(Scope scope, Type type) {
      members:
      for (Scope.Entry e = type.asElement().members().elems; e != null; e = e.sibling) {
    Scope.Entry overrider = scope.lookup(e.sym.getSimpleName());
    while (overrider.scope != null) {
        if (overrider.sym.kind == e.sym.kind
      && (overrider.sym.flags() & Flags.SYNTHETIC) == 0)
        {
      if (overrider.sym.getKind() == ElementKind.METHOD
      && overrides((ExecutableElement)overrider.sym, (ExecutableElement)e.sym, (TypeElement)type.asElement())) {
          continue members;
      }
        }
        overrider = overrider.next();
    }
    boolean derived = e.sym.getEnclosingElement() != scope.owner;
    ElementKind kind = e.sym.getKind();
    boolean initializer = kind == ElementKind.CONSTRUCTOR
        || kind == ElementKind.INSTANCE_INIT
        || kind == ElementKind.STATIC_INIT;
    if (!derived || (!initializer && e.sym.isInheritedIn(scope.owner, types)))
        scope.enter(e.sym);
      }
  }

    /**
     * Returns all annotations of an element, whether
     * inherited or directly present.
     *
     * @param e  the element being examined
     * @return all annotations of the element
     */
    public List<Attribute.Compound> getAllAnnotationMirrors(Element e) {
  Symbol sym = cast(Symbol.class, e);
  List<Attribute.Compound> annos = sym.getAnnotationMirrors();
  while (sym.getKind() == ElementKind.CLASS) {
      Type sup = ((ClassSymbol) sym).getSuperclass();
      if (sup.tag != TypeTags.CLASS || sup.isErroneous() ||
        sup.tsym == syms.objectType.tsym) {
    break;
      }
      sym = sup.tsym;
      List<Attribute.Compound> oldAnnos = annos;
      for (Attribute.Compound anno : sym.getAnnotationMirrors()) {
    if (isInherited(anno.type) &&
      !containsAnnoOfType(oldAnnos, anno.type)) {
        annos = annos.prepend(anno);
    }
      }
  }
  return annos;
    }

    /**
     * Tests whether an annotation type is @Inherited.
     */
    private boolean isInherited(Type annotype) {
  for (Attribute.Compound anno : annotype.tsym.getAnnotationMirrors()) {
      if (anno.type.tsym == syms.inheritedType.tsym)
    return true;
  }
  return false;
    }

    /**
     * Tests whether a list of annotations contains an annotation
     * of a given type.
     */
    private static boolean containsAnnoOfType(List<Attribute.Compound> annos,
                Type type) {
  for (Attribute.Compound anno : annos) {
      if (anno.type.tsym == type.tsym)
    return true;
  }
  return false;
    }

    public boolean hides(Element hiderEl, Element hideeEl) {
  Symbol hider = cast(Symbol.class, hiderEl);
  Symbol hidee = cast(Symbol.class, hideeEl);

  // Fields only hide fields; methods only methods; types only types.
  // Names must match.  Nothing hides itself (just try it).
  if (hider == hidee ||
    hider.kind != hidee.kind ||
    hider.name != hidee.name) {
      return false;
  }

  // Only static methods can hide other methods.
  // Methods only hide methods with matching signatures.
  if (hider.kind == Kinds.MTH) {
      if (!hider.isStatic() ||
      !types.isSubSignature(hider.type, hidee.type)) {
    return false;
      }
  }

  // Hider must be in a subclass of hidee's class.
  // Note that if M1 hides M2, and M2 hides M3, and M3 is accessible
  // in M1's class, then M1 and M2 both hide M3.
  ClassSymbol hiderClass = hider.owner.enclClass();
  ClassSymbol hideeClass = hidee.owner.enclClass();
  if (hiderClass == null || hideeClass == null ||
    !hiderClass.isSubClass(hideeClass, types)) {
      return false;
  }

  // Hidee must be accessible in hider's class.
  // The method isInheritedIn is poorly named:  it checks only access.
  return hidee.isInheritedIn(hiderClass, types);
    }

    public boolean overrides(ExecutableElement riderEl,
           ExecutableElement rideeEl, TypeElement typeEl) {
  MethodSymbol rider = cast(MethodSymbol.class, riderEl);
  MethodSymbol ridee = cast(MethodSymbol.class, rideeEl);
  ClassSymbol origin = cast(ClassSymbol.class, typeEl);

  return rider.name == ridee.name &&

         // not reflexive as per JLS
         rider != ridee &&

         // we don't care if ridee is static, though that wouldn't
         // compile
         !rider.isStatic() &&

         // Symbol.overrides assumes the following
         ridee.isMemberOf(origin, types) &&

         // check access and signatures; don't check return types
         rider.overrides(ridee, origin, types, false);
    }

    public String getConstantExpression(Object value) {
  return Constants.format(value);
    }

    /**
     * Print a representation of the elements to the given writer in
     * the specified order.  The main purpose of this method is for
     * diagnostics.  The exact format of the output is <em>not</em>
     * specified and is subject to change.
     *
     * @param w the writer to print the output to
     * @param elements the elements to print
     */
    public void printElements(java.io.Writer w, Element... elements) {
  for (Element element : elements)
      (new PrintingProcessor.PrintingElementVisitor(w, this)).visit(element).flush();
    }

    public Name getName(CharSequence cs) {
  return Name.fromString(names, cs.toString());
    }
   
    /**
     * Returns the tree node and compilation unit corresponding to this
     * element, or null if they can't be found.
     */
    private Pair<JCTree, JCCompilationUnit> getTreeAndTopLevel(Element e) {
  Symbol sym = cast(Symbol.class, e);
  Env<AttrContext> enterEnv = getEnterEnv(sym);
  if (enterEnv == null)
      return null;
  JCTree tree = TreeInfo.declarationFor(sym, enterEnv.tree);
  if (tree == null || enterEnv.toplevel == null)
      return null;
  return new Pair<JCTree,JCCompilationUnit>(tree, enterEnv.toplevel);
    }

    /**
     * Returns the best approximation for the tree node and compilation unit
     * corresponding to the given element, annotation and value.
     * If the element is null, null is returned.
     * If the annotation is null or cannot be found, the tree node and
     * compilation unit for the element is returned.
     * If the annotation value is null or cannot be found, the tree node and
     * compilation unit for the annotation is returned.
     */
    public Pair<JCTree, JCCompilationUnit> getTreeAndTopLevel(
          Element e, AnnotationMirror a, AnnotationValue v) {
  if (e == null)
      return null;

  Pair<JCTree, JCCompilationUnit> elemTreeTop = getTreeAndTopLevel(e);
  if (elemTreeTop == null)
      return null;

  if (a == null)
      return elemTreeTop;

  JCTree annoTree = matchAnnoToTree(a, e, elemTreeTop.fst);
  if (annoTree == null)
      return elemTreeTop;

  // 6388543: if v != null, we should search within annoTree to find
  // the tree matching v. For now, we ignore v and return the tree of
  // the annotation.
  return new Pair<JCTree, JCCompilationUnit>(annoTree, elemTreeTop.snd);
    }

    /**
     * Returns a symbol's enter environment, or null if it has none.
     */
    private Env<AttrContext> getEnterEnv(Symbol sym) {
  // Get enclosing class of sym, or sym itself if it is a class
  // or package.
  TypeSymbol ts = (sym.kind != Kinds.PCK)
      ? sym.enclClass()
      : (PackageSymbol) sym;
  return (ts != null)
    ? enter.getEnv(ts)
    : null;
    }

    /**
     * Returns an object cast to the specified type.
     * @throws NullPointerException if the object is {@code null}
     * @throws IllegalArgumentException if the object is of the wrong type
     */
    private static <T> T cast(Class<T> clazz, Object o) {
  if (! clazz.isInstance(o))
      throw new IllegalArgumentException(o.toString());
  return clazz.cast(o);
    }
}
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