Mercurial > jdk8-mips64-public > langtools / file revision

 /*

  * Copyright (c) 1999, 2011, 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.tree;

 import com.sun.tools.javac.code.*;

 import com.sun.tools.javac.code.Symbol.*;

 import com.sun.tools.javac.code.Type.*;

 import com.sun.tools.javac.util.*;

 import com.sun.tools.javac.util.JCDiagnostic.DiagnosticPosition;

 import com.sun.tools.javac.tree.JCTree.*;

 import static com.sun.tools.javac.code.Flags.*;

 import static com.sun.tools.javac.code.Kinds.*;

 import static com.sun.tools.javac.code.TypeTags.*;

 /** Factory class for trees.

  *

  *  <p><b>This is NOT part of any supported API.

  *  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>

  */

 public class TreeMaker implements JCTree.Factory {

     /** The context key for the tree factory. */

     protected static final Context.Key<TreeMaker> treeMakerKey =

         new Context.Key<TreeMaker>();

     /** Get the TreeMaker instance. */

     public static TreeMaker instance(Context context) {

         TreeMaker instance = context.get(treeMakerKey);

         if (instance == null)

             instance = new TreeMaker(context);

         return instance;

     }

     /** The position at which subsequent trees will be created.

      */

     public int pos = Position.NOPOS;

     /** The toplevel tree to which created trees belong.

      */

     public JCCompilationUnit toplevel;

     /** The current name table. */

     Names names;

     Types types;

     /** The current symbol table. */

     Symtab syms;

     /** Create a tree maker with null toplevel and NOPOS as initial position.

      */

     protected TreeMaker(Context context) {

         context.put(treeMakerKey, this);

         this.pos = Position.NOPOS;

         this.toplevel = null;

         this.names = Names.instance(context);

         this.syms = Symtab.instance(context);

         this.types = Types.instance(context);

     }

     /** Create a tree maker with a given toplevel and FIRSTPOS as initial position.

      */

     TreeMaker(JCCompilationUnit toplevel, Names names, Types types, Symtab syms) {

         this.pos = Position.FIRSTPOS;

         this.toplevel = toplevel;

         this.names = names;

         this.types = types;

         this.syms = syms;

     }

     /** Create a new tree maker for a given toplevel.

      */

     public TreeMaker forToplevel(JCCompilationUnit toplevel) {

         return new TreeMaker(toplevel, names, types, syms);

     }

     /** Reassign current position.

      */

     public TreeMaker at(int pos) {

         this.pos = pos;

         return this;

     }

     /** Reassign current position.

      */

     public TreeMaker at(DiagnosticPosition pos) {

         this.pos = (pos == null ? Position.NOPOS : pos.getStartPosition());

         return this;

     }

     /**

      * Create given tree node at current position.

      * @param defs a list of ClassDef, Import, and Skip

      */

     public JCCompilationUnit TopLevel(List<JCAnnotation> packageAnnotations,

                                       JCExpression pid,

                                       List<JCTree> defs) {

         Assert.checkNonNull(packageAnnotations);

         for (JCTree node : defs)

             Assert.check(node instanceof JCClassDecl

                 || node instanceof JCImport

                 || node instanceof JCSkip

                 || node instanceof JCErroneous

                 || (node instanceof JCExpressionStatement

                     && ((JCExpressionStatement)node).expr instanceof JCErroneous),

                 node.getClass().getSimpleName());

         JCCompilationUnit tree = new JCCompilationUnit(packageAnnotations, pid, defs,

                                      null, null, null, null);

         tree.pos = pos;

         return tree;

     }

     public JCImport Import(JCTree qualid, boolean importStatic) {

         JCImport tree = new JCImport(qualid, importStatic);

         tree.pos = pos;

         return tree;

     }

     public JCClassDecl ClassDef(JCModifiers mods,

                                 Name name,

                                 List<JCTypeParameter> typarams,

                                 JCExpression extending,

                                 List<JCExpression> implementing,

                                 List<JCTree> defs)

     {

         JCClassDecl tree = new JCClassDecl(mods,

                                      name,

                                      typarams,

                                      extending,

                                      implementing,

                                      defs,

                                      null);

         tree.pos = pos;

         return tree;

     }

     public JCMethodDecl MethodDef(JCModifiers mods,

                                Name name,

                                JCExpression restype,

                                List<JCTypeParameter> typarams,

                                List<JCVariableDecl> params,

                                List<JCExpression> thrown,

                                JCBlock body,

                                JCExpression defaultValue) {

         JCMethodDecl tree = new JCMethodDecl(mods,

                                        name,

                                        restype,

                                        typarams,

                                        params,

                                        thrown,

                                        body,

                                        defaultValue,

                                        null);

         tree.pos = pos;

         return tree;

     }

     public JCVariableDecl VarDef(JCModifiers mods, Name name, JCExpression vartype, JCExpression init) {

         JCVariableDecl tree = new JCVariableDecl(mods, name, vartype, init, null);

         tree.pos = pos;

         return tree;

     }

     public JCSkip Skip() {

         JCSkip tree = new JCSkip();

         tree.pos = pos;

         return tree;

     }

     public JCBlock Block(long flags, List<JCStatement> stats) {

         JCBlock tree = new JCBlock(flags, stats);

         tree.pos = pos;

         return tree;

     }

     public JCDoWhileLoop DoLoop(JCStatement body, JCExpression cond) {

         JCDoWhileLoop tree = new JCDoWhileLoop(body, cond);

         tree.pos = pos;

         return tree;

     }

     public JCWhileLoop WhileLoop(JCExpression cond, JCStatement body) {

         JCWhileLoop tree = new JCWhileLoop(cond, body);

         tree.pos = pos;

         return tree;

     }

     public JCForLoop ForLoop(List<JCStatement> init,

                            JCExpression cond,

                            List<JCExpressionStatement> step,

                            JCStatement body)

     {

         JCForLoop tree = new JCForLoop(init, cond, step, body);

         tree.pos = pos;

         return tree;

     }

     public JCEnhancedForLoop ForeachLoop(JCVariableDecl var, JCExpression expr, JCStatement body) {

         JCEnhancedForLoop tree = new JCEnhancedForLoop(var, expr, body);

         tree.pos = pos;

         return tree;

     }

     public JCLabeledStatement Labelled(Name label, JCStatement body) {

         JCLabeledStatement tree = new JCLabeledStatement(label, body);

         tree.pos = pos;

         return tree;

     }

     public JCSwitch Switch(JCExpression selector, List<JCCase> cases) {

         JCSwitch tree = new JCSwitch(selector, cases);

         tree.pos = pos;

         return tree;

     }

     public JCCase Case(JCExpression pat, List<JCStatement> stats) {

         JCCase tree = new JCCase(pat, stats);

         tree.pos = pos;

         return tree;

     }

     public JCSynchronized Synchronized(JCExpression lock, JCBlock body) {

         JCSynchronized tree = new JCSynchronized(lock, body);

         tree.pos = pos;

         return tree;

     }

     public JCTry Try(JCBlock body, List<JCCatch> catchers, JCBlock finalizer) {

         return Try(List.<JCTree>nil(), body, catchers, finalizer);

     }

     public JCTry Try(List<JCTree> resources,

                      JCBlock body,

                      List<JCCatch> catchers,

                      JCBlock finalizer) {

         JCTry tree = new JCTry(resources, body, catchers, finalizer);

         tree.pos = pos;

         return tree;

     }

     public JCCatch Catch(JCVariableDecl param, JCBlock body) {

         JCCatch tree = new JCCatch(param, body);

         tree.pos = pos;

         return tree;

     }

     public JCConditional Conditional(JCExpression cond,

                                    JCExpression thenpart,

                                    JCExpression elsepart)

     {

         JCConditional tree = new JCConditional(cond, thenpart, elsepart);

         tree.pos = pos;

         return tree;

     }

     public JCIf If(JCExpression cond, JCStatement thenpart, JCStatement elsepart) {

         JCIf tree = new JCIf(cond, thenpart, elsepart);

         tree.pos = pos;

         return tree;

     }

     public JCExpressionStatement Exec(JCExpression expr) {

         JCExpressionStatement tree = new JCExpressionStatement(expr);

         tree.pos = pos;

         return tree;

     }

     public JCBreak Break(Name label) {

         JCBreak tree = new JCBreak(label, null);

         tree.pos = pos;

         return tree;

     }

     public JCContinue Continue(Name label) {

         JCContinue tree = new JCContinue(label, null);

         tree.pos = pos;

         return tree;

     }

     public JCReturn Return(JCExpression expr) {

         JCReturn tree = new JCReturn(expr);

         tree.pos = pos;

         return tree;

     }

     public JCThrow Throw(JCTree expr) {

         JCThrow tree = new JCThrow(expr);

         tree.pos = pos;

         return tree;

     }

     public JCAssert Assert(JCExpression cond, JCExpression detail) {

         JCAssert tree = new JCAssert(cond, detail);

         tree.pos = pos;

         return tree;

     }

     public JCMethodInvocation Apply(List<JCExpression> typeargs,

                        JCExpression fn,

                        List<JCExpression> args)

     {

         JCMethodInvocation tree = new JCMethodInvocation(typeargs, fn, args);

         tree.pos = pos;

         return tree;

     }

     public JCNewClass NewClass(JCExpression encl,

                              List<JCExpression> typeargs,

                              JCExpression clazz,

                              List<JCExpression> args,

                              JCClassDecl def)

     {

         JCNewClass tree = new JCNewClass(encl, typeargs, clazz, args, def);

         tree.pos = pos;

         return tree;

     }

     public JCNewArray NewArray(JCExpression elemtype,

                              List<JCExpression> dims,

                              List<JCExpression> elems)

     {

         JCNewArray tree = new JCNewArray(elemtype, dims, elems);

         tree.pos = pos;

         return tree;

     }

     public JCLambda Lambda(List<JCVariableDecl> params,

                            JCTree body)

     {

         JCLambda tree = new JCLambda(params, body);

         tree.pos = pos;

         return tree;

     }

     public JCParens Parens(JCExpression expr) {

         JCParens tree = new JCParens(expr);

         tree.pos = pos;

         return tree;

     }

     public JCAssign Assign(JCExpression lhs, JCExpression rhs) {

         JCAssign tree = new JCAssign(lhs, rhs);

         tree.pos = pos;

         return tree;

     }

     public JCAssignOp Assignop(JCTree.Tag opcode, JCTree lhs, JCTree rhs) {

         JCAssignOp tree = new JCAssignOp(opcode, lhs, rhs, null);

         tree.pos = pos;

         return tree;

     }

     public JCUnary Unary(JCTree.Tag opcode, JCExpression arg) {

         JCUnary tree = new JCUnary(opcode, arg);

         tree.pos = pos;

         return tree;

     }

     public JCBinary Binary(JCTree.Tag opcode, JCExpression lhs, JCExpression rhs) {

         JCBinary tree = new JCBinary(opcode, lhs, rhs, null);

         tree.pos = pos;

         return tree;

     }

     public JCTypeCast TypeCast(JCTree clazz, JCExpression expr) {

         JCTypeCast tree = new JCTypeCast(clazz, expr);

         tree.pos = pos;

         return tree;

     }

     public JCInstanceOf TypeTest(JCExpression expr, JCTree clazz) {

         JCInstanceOf tree = new JCInstanceOf(expr, clazz);

         tree.pos = pos;

         return tree;

     }

     public JCArrayAccess Indexed(JCExpression indexed, JCExpression index) {

         JCArrayAccess tree = new JCArrayAccess(indexed, index);

         tree.pos = pos;

         return tree;

     }

     public JCFieldAccess Select(JCExpression selected, Name selector) {

         JCFieldAccess tree = new JCFieldAccess(selected, selector, null);

         tree.pos = pos;

         return tree;

     }

     public JCMemberReference Reference(JCMemberReference.ReferenceMode mode, Name name,

             JCExpression expr, List<JCExpression> typeargs) {

         JCMemberReference tree = new JCMemberReference(mode, name, expr, typeargs);

         tree.pos = pos;

         return tree;

     }

     public JCIdent Ident(Name name) {

         JCIdent tree = new JCIdent(name, null);

         tree.pos = pos;

         return tree;

     }

     public JCLiteral Literal(int tag, Object value) {

         JCLiteral tree = new JCLiteral(tag, value);

         tree.pos = pos;

         return tree;

     }

     public JCPrimitiveTypeTree TypeIdent(int typetag) {

         JCPrimitiveTypeTree tree = new JCPrimitiveTypeTree(typetag);

         tree.pos = pos;

         return tree;

     }

     public JCArrayTypeTree TypeArray(JCExpression elemtype) {

         JCArrayTypeTree tree = new JCArrayTypeTree(elemtype);

         tree.pos = pos;

         return tree;

     }

     public JCTypeApply TypeApply(JCExpression clazz, List<JCExpression> arguments) {

         JCTypeApply tree = new JCTypeApply(clazz, arguments);

         tree.pos = pos;

         return tree;

     }

     public JCTypeUnion TypeUnion(List<JCExpression> components) {

         JCTypeUnion tree = new JCTypeUnion(components);

         tree.pos = pos;

         return tree;

     }

     public JCTypeParameter TypeParameter(Name name, List<JCExpression> bounds) {

         JCTypeParameter tree = new JCTypeParameter(name, bounds);

         tree.pos = pos;

         return tree;

     }

     public JCWildcard Wildcard(TypeBoundKind kind, JCTree type) {

         JCWildcard tree = new JCWildcard(kind, type);

         tree.pos = pos;

         return tree;

     }

     public TypeBoundKind TypeBoundKind(BoundKind kind) {

         TypeBoundKind tree = new TypeBoundKind(kind);

         tree.pos = pos;

         return tree;

     }

     public JCAnnotation Annotation(JCTree annotationType, List<JCExpression> args) {

         JCAnnotation tree = new JCAnnotation(annotationType, args);

         tree.pos = pos;

         return tree;

     }

     public JCModifiers Modifiers(long flags, List<JCAnnotation> annotations) {

         JCModifiers tree = new JCModifiers(flags, annotations);

         boolean noFlags = (flags & (Flags.ModifierFlags | Flags.ANNOTATION)) == 0;

         tree.pos = (noFlags && annotations.isEmpty()) ? Position.NOPOS : pos;

         return tree;

     }

     public JCModifiers Modifiers(long flags) {

         return Modifiers(flags, List.<JCAnnotation>nil());

     }

     public JCErroneous Erroneous() {

         return Erroneous(List.<JCTree>nil());

     }

     public JCErroneous Erroneous(List<? extends JCTree> errs) {

         JCErroneous tree = new JCErroneous(errs);

         tree.pos = pos;

         return tree;

     }

     public LetExpr LetExpr(List<JCVariableDecl> defs, JCTree expr) {

         LetExpr tree = new LetExpr(defs, expr);

         tree.pos = pos;

         return tree;

     }

 /* ***************************************************************************

  * Derived building blocks.

  ****************************************************************************/

     public JCClassDecl AnonymousClassDef(JCModifiers mods,

                                          List<JCTree> defs)

     {

         return ClassDef(mods,

                         names.empty,

                         List.<JCTypeParameter>nil(),

                         null,

                         List.<JCExpression>nil(),

                         defs);

     }

     public LetExpr LetExpr(JCVariableDecl def, JCTree expr) {

         LetExpr tree = new LetExpr(List.of(def), expr);

         tree.pos = pos;

         return tree;

     }

     /** Create an identifier from a symbol.

      */

     public JCIdent Ident(Symbol sym) {

         return (JCIdent)new JCIdent((sym.name != names.empty)

                                 ? sym.name

                                 : sym.flatName(), sym)

             .setPos(pos)

             .setType(sym.type);

     }

     /** Create a selection node from a qualifier tree and a symbol.

      *  @param base   The qualifier tree.

      */

     public JCExpression Select(JCExpression base, Symbol sym) {

         return new JCFieldAccess(base, sym.name, sym).setPos(pos).setType(sym.type);

     }

     /** Create a qualified identifier from a symbol, adding enough qualifications

      *  to make the reference unique.

      */

     public JCExpression QualIdent(Symbol sym) {

         return isUnqualifiable(sym)

             ? Ident(sym)

             : Select(QualIdent(sym.owner), sym);

     }

     /** Create an identifier that refers to the variable declared in given variable

      *  declaration.

      */

     public JCExpression Ident(JCVariableDecl param) {

         return Ident(param.sym);

     }

     /** Create a list of identifiers referring to the variables declared

      *  in given list of variable declarations.

      */

     public List<JCExpression> Idents(List<JCVariableDecl> params) {

         ListBuffer<JCExpression> ids = new ListBuffer<JCExpression>();

         for (List<JCVariableDecl> l = params; l.nonEmpty(); l = l.tail)

             ids.append(Ident(l.head));

         return ids.toList();

     }

     /** Create a tree representing `this', given its type.

      */

     public JCExpression This(Type t) {

         return Ident(new VarSymbol(FINAL, names._this, t, t.tsym));

     }

     /** Create a tree representing a class literal.

      */

     public JCExpression ClassLiteral(ClassSymbol clazz) {

         return ClassLiteral(clazz.type);

     }

     /** Create a tree representing a class literal.

      */

     public JCExpression ClassLiteral(Type t) {

         VarSymbol lit = new VarSymbol(STATIC | PUBLIC | FINAL,

                                       names._class,

                                       t,

                                       t.tsym);

         return Select(Type(t), lit);

     }

     /** Create a tree representing `super', given its type and owner.

      */

     public JCIdent Super(Type t, TypeSymbol owner) {

         return Ident(new VarSymbol(FINAL, names._super, t, owner));

     }

     /**

      * Create a method invocation from a method tree and a list of

      * argument trees.

      */

     public JCMethodInvocation App(JCExpression meth, List<JCExpression> args) {

         return Apply(null, meth, args).setType(meth.type.getReturnType());

     }

     /**

      * Create a no-arg method invocation from a method tree

      */

     public JCMethodInvocation App(JCExpression meth) {

         return Apply(null, meth, List.<JCExpression>nil()).setType(meth.type.getReturnType());

     }

     /** Create a method invocation from a method tree and a list of argument trees.

      */

     public JCExpression Create(Symbol ctor, List<JCExpression> args) {

         Type t = ctor.owner.erasure(types);

         JCNewClass newclass = NewClass(null, null, Type(t), args, null);

         newclass.constructor = ctor;

         newclass.setType(t);

         return newclass;

     }

     /** Create a tree representing given type.

      */

     public JCExpression Type(Type t) {

         if (t == null) return null;

         JCExpression tp;

         switch (t.tag) {

         case BYTE: case CHAR: case SHORT: case INT: case LONG: case FLOAT:

         case DOUBLE: case BOOLEAN: case VOID:

             tp = TypeIdent(t.tag);

             break;

         case TYPEVAR:

             tp = Ident(t.tsym);

             break;

         case WILDCARD: {

             WildcardType a = ((WildcardType) t);

             tp = Wildcard(TypeBoundKind(a.kind), Type(a.type));

             break;

         }

         case CLASS:

             Type outer = t.getEnclosingType();

             JCExpression clazz = outer.tag == CLASS && t.tsym.owner.kind == TYP

                 ? Select(Type(outer), t.tsym)

                 : QualIdent(t.tsym);

             tp = t.getTypeArguments().isEmpty()

                 ? clazz

                 : TypeApply(clazz, Types(t.getTypeArguments()));

             break;

         case ARRAY:

             tp = TypeArray(Type(types.elemtype(t)));

             break;

         case ERROR:

             tp = TypeIdent(ERROR);

             break;

         default:

             throw new AssertionError("unexpected type: " + t);

         }

         return tp.setType(t);

     }

     /** Create a list of trees representing given list of types.

      */

     public List<JCExpression> Types(List<Type> ts) {

         ListBuffer<JCExpression> lb = new ListBuffer<JCExpression>();

         for (List<Type> l = ts; l.nonEmpty(); l = l.tail)

             lb.append(Type(l.head));

         return lb.toList();

     }

     /** Create a variable definition from a variable symbol and an initializer

      *  expression.

      */

     public JCVariableDecl VarDef(VarSymbol v, JCExpression init) {

         return (JCVariableDecl)

             new JCVariableDecl(

                 Modifiers(v.flags(), Annotations(v.getAnnotationMirrors())),

                 v.name,

                 Type(v.type),

                 init,

                 v).setPos(pos).setType(v.type);

     }

     /** Create annotation trees from annotations.

      */

     public List<JCAnnotation> Annotations(List<Attribute.Compound> attributes) {

         if (attributes == null) return List.nil();

         ListBuffer<JCAnnotation> result = new ListBuffer<JCAnnotation>();

         for (List<Attribute.Compound> i = attributes; i.nonEmpty(); i=i.tail) {

             Attribute a = i.head;

             result.append(Annotation(a));

         }

         return result.toList();

     }

     public JCLiteral Literal(Object value) {

         JCLiteral result = null;

         if (value instanceof String) {

             result = Literal(CLASS, value).

                 setType(syms.stringType.constType(value));

         } else if (value instanceof Integer) {

             result = Literal(INT, value).

                 setType(syms.intType.constType(value));

         } else if (value instanceof Long) {

             result = Literal(LONG, value).

                 setType(syms.longType.constType(value));

         } else if (value instanceof Byte) {

             result = Literal(BYTE, value).

                 setType(syms.byteType.constType(value));

         } else if (value instanceof Character) {

             int v = (int) (((Character) value).toString().charAt(0));

             result = Literal(CHAR, value).

                 setType(syms.charType.constType(v));

         } else if (value instanceof Double) {

             result = Literal(DOUBLE, value).

                 setType(syms.doubleType.constType(value));

         } else if (value instanceof Float) {

             result = Literal(FLOAT, value).

                 setType(syms.floatType.constType(value));

         } else if (value instanceof Short) {

             result = Literal(SHORT, value).

                 setType(syms.shortType.constType(value));

         } else if (value instanceof Boolean) {

             int v = ((Boolean) value) ? 1 : 0;

             result = Literal(BOOLEAN, v).

                 setType(syms.booleanType.constType(v));

         } else {

             throw new AssertionError(value);

         }

         return result;

     }

     class AnnotationBuilder implements Attribute.Visitor {

         JCExpression result = null;

         public void visitConstant(Attribute.Constant v) {

             result = Literal(v.value);

         }

         public void visitClass(Attribute.Class clazz) {

             result = ClassLiteral(clazz.type).setType(syms.classType);

         }

         public void visitEnum(Attribute.Enum e) {

             result = QualIdent(e.value);

         }

         public void visitError(Attribute.Error e) {

             result = Erroneous();

         }

         public void visitCompound(Attribute.Compound compound) {

             result = visitCompoundInternal(compound);

         }

         public JCAnnotation visitCompoundInternal(Attribute.Compound compound) {

             ListBuffer<JCExpression> args = new ListBuffer<JCExpression>();

             for (List<Pair<Symbol.MethodSymbol,Attribute>> values = compound.values; values.nonEmpty(); values=values.tail) {

                 Pair<MethodSymbol,Attribute> pair = values.head;

                 JCExpression valueTree = translate(pair.snd);

                 args.append(Assign(Ident(pair.fst), valueTree).setType(valueTree.type));

             }

             return Annotation(Type(compound.type), args.toList());

         }

         public void visitArray(Attribute.Array array) {

             ListBuffer<JCExpression> elems = new ListBuffer<JCExpression>();

             for (int i = 0; i < array.values.length; i++)

                 elems.append(translate(array.values[i]));

             result = NewArray(null, List.<JCExpression>nil(), elems.toList()).setType(array.type);

         }

         JCExpression translate(Attribute a) {

             a.accept(this);

             return result;

         }

         JCAnnotation translate(Attribute.Compound a) {

             return visitCompoundInternal(a);

         }

     }

     AnnotationBuilder annotationBuilder = new AnnotationBuilder();

     /** Create an annotation tree from an attribute.

      */

     public JCAnnotation Annotation(Attribute a) {

         return annotationBuilder.translate((Attribute.Compound)a);

     }

     /** Create a method definition from a method symbol and a method body.

      */

     public JCMethodDecl MethodDef(MethodSymbol m, JCBlock body) {

         return MethodDef(m, m.type, body);

     }

     /** Create a method definition from a method symbol, method type

      *  and a method body.

      */

     public JCMethodDecl MethodDef(MethodSymbol m, Type mtype, JCBlock body) {

         return (JCMethodDecl)

             new JCMethodDecl(

                 Modifiers(m.flags(), Annotations(m.getAnnotationMirrors())),

                 m.name,

                 Type(mtype.getReturnType()),

                 TypeParams(mtype.getTypeArguments()),

                 Params(mtype.getParameterTypes(), m),

                 Types(mtype.getThrownTypes()),

                 body,

                 null,

                 m).setPos(pos).setType(mtype);

     }

     /** Create a type parameter tree from its name and type.

      */

     public JCTypeParameter TypeParam(Name name, TypeVar tvar) {

         return (JCTypeParameter)

             TypeParameter(name, Types(types.getBounds(tvar))).setPos(pos).setType(tvar);

     }

     /** Create a list of type parameter trees from a list of type variables.

      */

     public List<JCTypeParameter> TypeParams(List<Type> typarams) {

         ListBuffer<JCTypeParameter> tparams = new ListBuffer<JCTypeParameter>();

         int i = 0;

         for (List<Type> l = typarams; l.nonEmpty(); l = l.tail)

             tparams.append(TypeParam(l.head.tsym.name, (TypeVar)l.head));

         return tparams.toList();

     }

     /** Create a value parameter tree from its name, type, and owner.

      */

     public JCVariableDecl Param(Name name, Type argtype, Symbol owner) {

         return VarDef(new VarSymbol(0, name, argtype, owner), null);

     }

     /** Create a a list of value parameter trees x0, ..., xn from a list of

      *  their types and an their owner.

      */

     public List<JCVariableDecl> Params(List<Type> argtypes, Symbol owner) {

         ListBuffer<JCVariableDecl> params = new ListBuffer<JCVariableDecl>();

         MethodSymbol mth = (owner.kind == MTH) ? ((MethodSymbol)owner) : null;

         if (mth != null && mth.params != null && argtypes.length() == mth.params.length()) {

             for (VarSymbol param : ((MethodSymbol)owner).params)

                 params.append(VarDef(param, null));

         } else {

             int i = 0;

             for (List<Type> l = argtypes; l.nonEmpty(); l = l.tail)

                 params.append(Param(paramName(i++), l.head, owner));

         }

         return params.toList();

     }

     /** Wrap a method invocation in an expression statement or return statement,

      *  depending on whether the method invocation expression's type is void.

      */

     public JCStatement Call(JCExpression apply) {

         return apply.type.tag == VOID ? Exec(apply) : Return(apply);

     }

     /** Construct an assignment from a variable symbol and a right hand side.

      */

     public JCStatement Assignment(Symbol v, JCExpression rhs) {

         return Exec(Assign(Ident(v), rhs).setType(v.type));

     }

     /** Construct an index expression from a variable and an expression.

      */

     public JCArrayAccess Indexed(Symbol v, JCExpression index) {

         JCArrayAccess tree = new JCArrayAccess(QualIdent(v), index);

         tree.type = ((ArrayType)v.type).elemtype;

         return tree;

     }

     /** Make an attributed type cast expression.

      */

     public JCTypeCast TypeCast(Type type, JCExpression expr) {

         return (JCTypeCast)TypeCast(Type(type), expr).setType(type);

     }

 /* ***************************************************************************

  * Helper methods.

  ****************************************************************************/

     /** Can given symbol be referred to in unqualified form?

      */

     boolean isUnqualifiable(Symbol sym) {

         if (sym.name == names.empty ||

             sym.owner == null ||

             sym.owner.kind == MTH || sym.owner.kind == VAR) {

             return true;

         } else if (sym.kind == TYP && toplevel != null) {

             Scope.Entry e;

             e = toplevel.namedImportScope.lookup(sym.name);

             if (e.scope != null) {

                 return

                   e.sym == sym &&

                   e.next().scope == null;

             }

             e = toplevel.packge.members().lookup(sym.name);

             if (e.scope != null) {

                 return

                   e.sym == sym &&

                   e.next().scope == null;

             }

             e = toplevel.starImportScope.lookup(sym.name);

             if (e.scope != null) {

                 return

                   e.sym == sym &&

                   e.next().scope == null;

             }

         }

         return false;

     }

     /** The name of synthetic parameter number `i'.

      */

     public Name paramName(int i)   { return names.fromString("x" + i); }

     /** The name of synthetic type parameter number `i'.

      */

     public Name typaramName(int i) { return names.fromString("A" + i); }

 }